Higher trends but larger uncertainty and geographic variability in 21st century temperature and heat waves
- Auroop R. Gangulya,*,
- Karsten Steinhaeusera,b,
- David J. Erickson IIIc,
- Marcia Branstetterc,
- Esther S. Parisha,
- Nagendra Singha,
- John B. Drakec and
- Lawrence Bujad
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Edited by Stephen H. Schneider, Stanford University, Stanford, CA, and approved July 31, 2009 (received for review April 23, 2009)
Abstract
Generating credible climate change and extremes projections remains a high-priority challenge, especially since recent observed emissions are above the worst-case scenario. Bias and uncertainty analyses of ensemble simulations from a global earth systems model show increased warming and more intense heat waves combined with greater uncertainty and large regional variability in the 21st century. Global warming trends are statistically validated across ensembles and investigated at regional scales. Observed heat wave intensities in the current decade are larger than worst-case projections. Model projections are relatively insensitive to initial conditions, while uncertainty bounds obtained by comparison with recent observations are wider than ensemble ranges. Increased trends in temperature and heat waves, concurrent with larger uncertainty and variability, suggest greater urgency and complexity of adaptation or mitigation decisions.
*Correspondence, e-mail: gangulyar@ornl.gov
Link to abstract: http://www.pnas.org/content/early/2009/09/04/0904495106.abstract
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