Reports

CO₂-Forced Climate and Vegetation Instability During Late Paleozoic Deglaciation

Isabel P. Montañez,^1* Neil J. Tabor,² Deb Niemeier,³ William A. DiMichele,⁴ Tracy D. Frank,⁵ Christopher R. Fielding,⁵ John L. Isbell,⁶ Lauren P. Birgenheier,⁵ Michael C. Rygel⁵

The late Paleozoic deglaciation is the vegetated Earth's only recorded icehouse-to-greenhouse transition, yet the climate dynamics remain enigmatic. By using the stable isotopic compositions of soil-formed minerals, fossil-plant matter, and shallow-water brachiopods, we estimated atmospheric partial pressure of carbon dioxide (pCO₂) and tropical marine surface temperatures during this climate transition. Comparison to southern Gondwanan glacial records documents covariance between inferred shifts in pCO₂, temperature, and ice volume consistent with greenhouse gas forcing of climate. Major restructuring of paleotropical flora in western Euramerica occurred in step with climate and pCO₂ shifts, illustrating the biotic impact associated with past CO₂-forced turnover to a permanent ice-free world.

¹ Department of Geology, University of California, Davis, CA 95616, USA.
² Department of Geological Sciences, Southern Methodist University, Dallas, TX 75275, USA.
³ Department of Civil and Environmental Engineering, University of California, Davis, CA 95616, USA.
⁴ Department of Paleobiology, Smithsonian Museum of Natural History, Washington, DC 20560, USA.
⁵ Department of Geosciences, 214 Bessey Hall, University of Nebraska, Lincoln, NE 68588, USA.
⁶ Department of Geosciences, University of Wisconsin, Post Office Box 413, Milwaukee, WI 53201, USA.

Present address: Department of Geology, State University of New York, College at Potsdam, Potsdam, NY 13676, USA.

^* To whom correspondence should be addressed. E-mail: montanez{at}geology.ucdavis.edu

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The Magnitude of Late Paleozoic Glacioeustatic Fluctuations: A Synthesis.

M. C. Rygel, C. R. Fielding, T. D. Frank, and L. P. Birgenheier (2008)
Journal of Sedimentary Research 78, 500-511
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Examining the Complexity of Environmental Change during the Late Paleozoic and Early Mesozoic.

J. L. Isbell, M. L. Fraiser, and L. C. Henry (2008)
Palaios 23, 267-269
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From the Cover: The impact of Miocene atmospheric carbon dioxide fluctuations on climate and the evolution of terrestrial ecosystems.

W. M. Kurschner, Z. Kvacek, and D. L. Dilcher (2008)
PNAS 105, 449-453
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Stratigraphic imprint of the Late Palaeozoic Ice Age in eastern Australia: a record of alternating glacial and nonglacial climate regime.

C. R. FIELDING, T. D. FRANK, L. P. BIRGENHEIER, M. C. RYGEL, A. T. JONES, and J. ROBERTS (2008)
Journal of the Geological Society 165, 129-140
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Bryozoan paleoecology indicates mid-Phanerozoic extinctions were the product of long-term environmental stress.

C. M. Powers and D. J. Bottjer (2007)
Geology 35, 995-998
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Late Paleozoic tropical climate response to Gondwanan deglaciation.

C. J. Poulsen, D. Pollard, I. P. Montanez, and D. Rowley (2007)
Geology 35, 771-774
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