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Snowball Earth Roopa Kamesh Matt Beversdorf Kathy Groome. Theory of Snowball Earth. Continents and oceans were covered in ice approximately 600 million years ago.
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Snowball Earth Roopa Kamesh Matt Beversdorf Kathy Groome
Theory of Snowball Earth • Continents and oceans were covered in ice approximately 600 million years ago. • Earth was in a deep freeze, chemical cycles were halted; carbon dioxide accumulated in the atmosphere causing an extreme greenhouse effect. • Believed to have caused the explosion of life forms seen in Cambrian fossils
Existing Evidence • Glacial Deposits and Carbonate Caps • Paleomagnetic Studies • Banded Iron Formations • Manganese Deposits • Isotope Analysis • Plate Tectonics, Carbon Dioxide Emissions • Ice Albedo Feedback • Proterozoic Biostratigraphy: Persistence and • the Explosion of Life • Extremophiles
Paleomagnetic Studies From Understanding Earth, Press and Seiver, W.H. Freeman and Co.
Isotope Analysis Carbon isotopes (Stanley, Steven, M., 1999)
Isotope Examples Source: A.H. Knoll. 2000. Learning to tell Neoproterozoic Time
Albedo Effect Once the continents were glaciated to 30 degrees latitude, there was a runaway albedo effect. Albedo refers to the reflective ability of a material. You can see the difference in how each material reflects sunlight in the table above.
Extremophiles Extremophiles provide evidence that life could have persisted under snowball Earth conditions.
Arguments Against • Organisms need sunlight and/or oxygen to survive (e.g. algae) • Freeze thaw structures – no glacial deposits on a completely frozen planet • Sea-level change – evidence for lowering of sea level • Inconsistency of isotope results: Kennedy • Carbon dioxide emissions - what about methane?
Alternative Theories • Earth’s Obliquity: Increased Axial Tilt • Slushball Earth: A variation of snowball earth where the planet did not entirely freeze. This theory is based more on climate models for the Neoproterozoic.