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Astrobiology: Life in the Universe

NASA Astrobiology Institute (NAI)


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  1. University of California, Los Angeles

    PI Edward Young
    Members 0 (Inactive)
    Active Dates 11/2003 - 10/2008
    Team Website http://www.astrobiology.ucla.edu/

    Executive Summary

    Untitled

    Project Reports

    Metamorphism, organic synthesis and the emergence of life on Earth

    ROADMAP OBJECTIVES: 3, 4

    7.4.4. Equilibrium Fe-isotope fractionation.

    ROADMAP OBJECTIVES: 4

    Disks and Dips

    ROADMAP OBJECTIVES: 1, 1

    Extrasolar Planetary Systems and the Potential for Terrestrial Planets

    ROADMAP OBJECTIVES: 1

    Extraterrestrial Impact History on Earth

    ROADMAP OBJECTIVES: 4

    From Stars to Genes

    ROADMAP OBJECTIVES: 4, 4

    No title given

    ROADMAP OBJECTIVES: 1

    Sulfur isotopes in the Early Earth atmosphere

    ROADMAP OBJECTIVES: 4

    EPO Reports

    Astrobiology in the Schools

    NASA-Navajo Nation Project

    DePaul University-NASA Space Science Workshop

    Digital Library of Earth Systems Education (DLESE)

    Educational Film Presentations

    "Discover the Mysteries of Science Through Eduction" Teacher Workshop

    Harvard-Smithsonian Astrophysics Leadership Summer Institute "Beyond the Solar System"

    The Science Study of Navajo Astronomy

    Project Reports

    Organized by Astrobiology Roadmap Objective

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    • Change seach results by adding or removing a roadmap objective:

  • 1 Determine whether the atmosphere of the early Earth, hydrothermal or exogenous matter were significant sources of organic matter.
  • 2 Develop and test plausible pathways by which ancient counterparts of membrane systems, proteins and nucleic acid were synthesized from simpler precursors and assembled into protocells.
  • 3 Replicating, catalytic systems capable of evolution, and construct laboratory models of metabolism in primitive living systems.
  • 4 Expand and interpret the genomic database of a select group of key microorganisms in order to reveal the history and dynamics of evolution.
  • 5 Describe the sequences of causes and effects associated with the development of Earth's early biosphere and the global environment.
  • 6 Define how ecophysiological processes structure microbial communities, influence their adaptation and evolution, and affect their detection on other planets.
  • 7 Identify the environmental limits for by examining biological adaptations to extremes in environmental conditions.

    • Change search results by adding or removing a team:

  • Carnegie Institution of Washington
  • Indiana University, Bloomington
  • Marine Biological Laboratory
  • Michigan State University
  • NASA Ames Research Center
  • NASA Goddard Space Flight Center
  • Pennsylvania State University
  • SETI Institute
  • University of Arizona
  • University of California, Berkeley
  • University of California, Los Angeles [x]
  • University of Colorado, Boulder
  • University of Hawaii
  • University of Washington
  • Virtual Planetary Laboratory (JPL/CalTech)

    • Astrobiology: Life in the Universe
    • Editor: Wendy Dolci
    • NASA Official: Wendy Dolci
    • Last Updated November 23, 2009
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