reference : Going to the Extremes: An Intercomparison of Model-Simulated Historical and Future Changes in Extreme Events

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/reference/00df3fab-4c55-4454-b801-e58e9ace65d6
Bibliographic fields
reftype Journal Article
Abstract Projections of changes in climate extremes are critical to assessing the potential impacts of climate change on human and natural systems. Modeling advances now provide the opportunity of utilizing global general circulation models (GCMs) for projections of extreme temperature and precipitation indicators. We analyze historical and future simulations of ten such indicators as derived from an ensemble of 9 GCMs contributing to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC-AR4), under a range of emissions scenarios. Our focus is on the consensus from the GCM ensemble, in terms of direction and significance of the changes, at the global average and geographical scale. The climate extremes described by the ten indices range from heat-wave frequency to frost-day occurrence, from dry-spell length to heavy rainfall amounts. Historical trends generally agree with previous observational studies, providing a basic sense of reliability for the GCM simulations. Individual model projections for the 21st century across the three scenarios examined are in agreement in showing greater temperature extremes consistent with a warmer climate. For any specific temperature index, minor differences appear in the spatial distribution of the changes across models and across scenarios, while substantial differences appear in the relative magnitude of the trends under different emissions rates. Depictions of a wetter world and greater precipitation intensity emerge unequivocally in the global averages of most of the precipitation indices. However, consensus and significance are less strong when regional patterns are considered. This analysis provides a first overview of projected changes in climate extremes from the IPCC-AR4 model ensemble, and has significant implications with regard to climate projections for impact assessments.
Author Tebaldi, C.; Hayhoe, K.; Arblaster, J. M.; Meehl, G. A.
ISSN 1573-1480
Issue 3-4
Journal Climatic Change
Pages 185-211
Title Going to the Extremes: An Intercomparison of Model-Simulated Historical and Future Changes in Extreme Events
Type of Article Article
Volume 79
Year 2006
doi 10.1007/s10584-006-9051-4
Bibliographic identifiers
.reference_type 0
_uuid 00df3fab-4c55-4454-b801-e58e9ace65d6