Article
Nature 450, 813-818 (6 December 2007) | doi:10.1038/nature06354; Received 31 October 2006; Accepted 1 October 2007
Snowball Earth prevention by dissolved organic carbon remineralization
W. Richard Peltier1, Yonggang Liu1 & John W. Crowley1
- Department of Physics, University of Toronto, Toronto, Ontario M5S 1A7, Canada
Correspondence to: W. Richard Peltier1 Correspondence and requests for materials should be addressed to W.R.P. (Email: peltier@atmosp.physics.utoronto.ca).
Abstract
The 'snowball Earth' hypothesis posits the occurrence of a sequence of glaciations in the Earth's history sufficiently deep that photosynthetic activity was essentially arrested. Because the time interval during which these events are believed to have occurred immediately preceded the Cambrian explosion of life, the issue as to whether such snowball states actually developed has important implications for our understanding of evolutionary biology. Here we couple an explicit model of the Neoproterozoic carbon cycle to a model of the physical climate system. We show that the drawdown of atmospheric oxygen into the ocean, as surface temperatures decline, operates so as to increase the rate of remineralization of a massive pool of dissolved organic carbon. This leads directly to an increase of atmospheric carbon dioxide, enhanced greenhouse warming of the surface of the Earth, and the prevention of a snowball state.
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