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Evolution of the Modern Nitrogen Cycle
NAI’s Deep Time Drilling Project supported the drilling of several pristine cores from ancient rocks in Western Australia in 2004, and a new paper in this week’s Science, led by University of Washington astrobiologists, outlines results from the analysis of these cores. The nitrogen isotope values in the core from the 2.5-billion-year-old Mount McRae Shale vary over 30 meters, evidently recording a temporary change from an anaerobic to an aerobic nitrogen cycle, and back again to anaerobic. Other data suggest that nitrification occurred in response to a small increase in surface-ocean oxygenation. The data imply that nitrifying and denitrifying microbes had already evolved by the late Archean and were present before oxygen first began to accumulate in the atmosphere.
The discovery also gives clues about when and how the Earth’s atmosphere became oxygen rich. Geochemical examination of stratigraphic samples from the core indicates that atmospheric oxygen rose in a temporary “whiff” about 2.5 billion years ago. The whiff lasted long enough to be recorded in the nitrogen isotope record, then oxygen dropped back to very low levels before the atmosphere became permanently oxygenated about 2.3 billion years ago.
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- Earthscope – Opportunities for Interdisciplinary Research
- Kepler's Search for "Alien Earths" Covered by CNN
- Evolution of the Modern Nitrogen Cycle
- Alien Safari Part 4: Countdown to Alien Life
- Cycling Nitrogen
- Unlocking the Combination
- Assembling the Tree of Life
- Alien Safari Part 3: Technology Worlds
- Protocells Bridging Nonliving and Living Matter