"What would be the reasonable values to each parameter and finally the N in Drake Equation, as recently assumed by SETI program? "
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University of California, Los Angeles
Executive Summary
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Project Reports
Serpentinization - part of the Geobiology and Geochemistry of Early Earth Project
ROADMAP OBJECTIVES:Characterization of Earth's Early Life
ROADMAP OBJECTIVES:Earth's Early Environment and Life
ROADMAP OBJECTIVES: 4.1, 4.3Electrochemical isotope effects with applications to stable isotope fractionation in transition metals
ROADMAP OBJECTIVES: 1.1, 1.2, 4.2, 4.3Experimental and Theoretical Analysis of Mass-independent sulfur isotope effects-part of the Geobiology and Geochemistry of Early Earth project
ROADMAP OBJECTIVES: 4.1Extrasolar Planetary Systems
ROADMAP OBJECTIVES: 1.2Extrasolar Planetary Systems and the Potential for Terrestrial Planets
ROADMAP OBJECTIVES: 1.1, 1.2, 3.1From Stars to Genes
ROADMAP OBJECTIVES: 1.1, 1.2, 2.2From Stars to Genes: Addition to Extrasolar Planetary Systems
ROADMAP OBJECTIVES: 1.1, 1.2, 2.1, 2.2, 4.2, 4.3, 5.1, 5.2Genome Evolution and Innovation
ROADMAP OBJECTIVES: 3.2, 3.3, 3.4, 4.1, 4.2, 5.1, 5.2, 5.3, 6.1, 6.2, 7.2Genomic Approach to Understanding of the Evolution of Sulfur Metabolisms
ROADMAP OBJECTIVES:Geobiology and the Geochemistry of Early Earth
ROADMAP OBJECTIVES: 4.3Geochemical and Geochemistry of Early Earth - Isotope Stratigraphy
ROADMAP OBJECTIVES: 1.1, 4.2, 6.1Geochemical Production of Methane on Mars
ROADMAP OBJECTIVES: 2.1, 3.1, 7.2The astrochemistry of Protoplanetary Systems and the meteorite rRecord - Part of the Extrasolar Planetary Systems Project
ROADMAP OBJECTIVES: 1.1EPO Reports
Southeast Regional Clearinghouse 2K5 Funding opportunity
UCLA Astrobiology Course - ESS33
16th Annual CSEOL Symposium - Life Among the Stars
The Licancabur Expedition
Co-Convener - American Geophysical Union (AGU) 2004 Fall Session - Diversity and Equity in the Earth and Space Sciences: Building Effective Partnerships with Minority Serving Institutions
One Earth-One Universe Workshop
Informal Science Education Professional Development Workshop "Aliens Earths" - Lawrence Hall of Science - University of California, Berkeley
NASA Astrobiology Biennial Meeting EPO Poster Session - Boulder, Colorado - Astrobiology in a K-14 Diverse Multi-Cultural Society
Intel International Science and Engineering Fair - Phoenix, Arizona
The Science Study of Navajo Astronomy
Astrobiology Summer Science Experience for Teachers (ASSET) - National Science Teachers Association NSTA
NASA Astrobiology Biennial Meeting - Session 1 - Lead Talk -: Formation and Evolution of Planetary Systems - Lead Talk -Boulder, Colorado -
Project Reports
Organized by Astrobiology Roadmap Objective
- Objective 1.1: Models of formation and evolution of habitable planets (Found: 6)
- Objective 1.2: Indirect and direct astronomical observations of extrasolar habitable planets (Found: 5)
- Objective 2.1: Mars exploration (Found: 2)
- Objective 2.2: Outer Solar System exploration (Found: 2)
- Objective 3.1: Sources of prebiotic materials and catalysts (Found: 2)
- Objective 3.2: Origins and evolution of functional biomolecules (Found: 1)
- Objective 3.3: Origins of energy transduction (Found: 1)
- Objective 3.4: Origins of cellularity and protobiological systems (Found: 1)
- Objective 4.1: Earth's early biosphere (Found: 3)
- Objective 4.2: Foundations of complex life (Found: 4)
- Objective 4.3: Effects of extraterrestrial events upon the biosphere (Found: 4)
- Objective 5.1: Environment-dependent, molecular evolution in microorganisms (Found: 2)
- Objective 5.2: Co-evolution of microbial communities (Found: 2)
- Objective 5.3: Biochemical adaptation to extreme environments (Found: 1)
- Objective 6.1: Environmental changes and the cycling of elements by the biota, communities, and ecosystems (Found: 2)
- Objective 6.2: Adaptation and evolution of life beyond Earth (Found: 1)
- Objective 7.2: Biosignatures to be sought in nearby planetary systems (Found: 2)
Goal 1: Understand the nature and distribution of habitable environments in the Universe
Goal 2: Explore for past or present habitable environments, prebiotic chemistry and signs of life elsewhere in our Solar System
Goal 3: Understand how life originates from cosmic and planetary precursors
Goal 4: Understand how past life on Earth interacted with its changing planetary and Solar System environment
Goal 5: Understand the evolutionary mechanisms and environmental limits of life
Goal 6: Understand the principles that will shape the future of life, both on Earth and beyond
Goal 7: Determine how to recognize signatures of life on other worlds and on early Earth
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