"If possible, how would terraforming overcome the different gravitational forces of planets deemed suitable for eventual human civilisation?"
Now showing: Years 2007, 2008 projects that addressed Astrobiology Roadmap Objective 6.1
Roadmap Goal 6: Understand the principles that will shape the future of life, both on Earth and beyond
Objective 6.1: Environmental changes and the cycling of elements by the biota, communities, and ecosystems
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6. Molecular and Isotopic Biosignatures
Biogenic formation of high-magnesium calcite in sulfide-rich systems
Biosignatures in chemosynthetic and photosynthetic systems
Biosignatures in chemosynthetic and photosynthetic systems
Climate, Habitability, and the Atmosphere on early Mars
DDF: Geomicrobiology of a Unique Ice-Sulfur Spring Ecosystem in the High Arctic
Design, construction and testing of a Cavity-Ring Down Spectrometer for determination of the concentration and isotopic composition of methane
Year: 2008 / TEAM: IPTAI / ROADMAP OBJECTIVES: 2.1, 2.2, 3.3, 4.1, 5.1, 5.2, 5.3, 6.1, 6.2, 7.1, 7.2
Drilling a borehole for sampling of gases, water, and microbes in sub-permafrost groundwater at High Lake, Nunavut Territory, Canada
Ecology of a Hawaiian lava cave microbial mat
Ecosystem to Biosphere Modeling
Erwin Project
Evolution of a Habitable Planet (Stewart)
Evolution of abiotic environments to ecosystems
Year: 2007 / TEAM: IPTAI / ROADMAP OBJECTIVES: 2.1, 2.2, 3.1, 3.2, 3.3, 5.1, 5.2, 5.3, 6.1, 6.2, 7.1, 7.2
Evolution of Atmospheric O2, Climate, and Biosphere (Ohmoto)
Examination of the Microbial Diversity Found in Ice Cores (Brenchley)
Examination of the Microbial Diversity Found in Ice Cores (Brenchley)
Experimental Study of Radiolytic Oxidation of Pyrite as a source of sulfate and hydrogen to sustain microbial metabolism
Ferry Report
Geomicrobiology of neutrophilic iron-oxidizing bacteria at Loihi Seamount
High Lake Gossan deposit: An Arctic analogue for ancient Martian surficial processes?
High-temperature, High-pressure Microcosms to Study the Bio-molecular Basis for the Upper Temperature Limits to Life
Hindcasting Ecosystems
Hindcasting Ecosystems
Identifying microbial life at crustal rock-water interfaces
Identifying microbial life at crustal rock-water interfaces
In situ voltammetry integrated with a cabled nearshore observatory
Investigations of Modern Analogues of Precambrian Microbial Ecosystems
Iron and sulfur-based biospheres and their biosignatures
Iron isotope biosignatures: Laboratory studies and modern environments
Iron Oxidation - Shaping the Past and Present Environments
Iron Oxidation - Shaping the Past and Present Environments
Isotopic Signatures of Methane and Higher Hydrocarbon Gases from Precambrian Shield Sites: A Model for Abiogenic Polymerization of Hydrocarbons
Mars Forward Contamination Studies Utilizing a Mars Environmental Simulation Chamber
Mechanisms of Marine Microbial Community Structuring
Microbial Communities and Activities in the Deep Marine Subsurface
Microbial Diversity in the Deep Ocean
Modeling Early Earth Environments
Molecular and Isotopic Microbial Community Analysis of Deep Subsurface Sediments
Molecular Survey of Microbial Diversity in Hypersaline Ecosystems
Pearson Project
Planetary Biology, Evolution, and Intelligence
Year: 2007 / TEAM: SETI / ROADMAP OBJECTIVES: 1.1, 1.2, 2.1, 2.2, 3.1, 3.2, 4.1, 4.2, 5.1, 5.2, 5.3, 6.1, 6.2, 7.1, 7.2
Planetary Habitability
Planetary Surface and Interior Models and Super Earths
Planetary-Scale Transition from Abiotic to Biotic Nitrogen Cycle
Project 6. Molecular and Isotopic Biosignatures
Rapid response to remotely detected seafloor eruptions
Re-tracing Steps Towards a Habitable World: The Biogeochemical Evolution of Sulfur on the Early Earth.
Retentostat Studies of Subsurface Sulfate Reducing Bacterium
Rise of Oxygen, Modern Analogs for Anoxic Oceans, and Effect of early life on soil development
Sediment-buried basement deep biosphere
Simulating Preservation of Amino Acids and Peptides in Evaporitic Sulfate Deposits on the Surface of Mars
Subseafloor basement (basalt) biosphere studies
Sulfur biogeochemistry of the Early Earth
The High Lakes Project (HLP)
The Virtual Planetary Laboratory – The Life Modules - Photosynthesis
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