reference : The Community Earth System Model (CESM) large ensemble project: A community resource for studying climate change in the presence of internal climate variability

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/reference/f26485f5-8786-45fe-bcd5-d6980fa32f48
Bibliographic fields
reftype Journal Article
Abstract While internal climate variability is known to affect climate projections, its influence is often underappreciated and confused with model error. Why? In general, modeling centers contribute a small number of realizations to international climate model assessments [e.g., phase 5 of the Coupled Model Intercomparison Project (CMIP5)]. As a result, model error and internal climate variability are difficult, and at times impossible, to disentangle. In response, the Community Earth System Model (CESM) community designed the CESM Large Ensemble (CESM-LE) with the explicit goal of enabling assessment of climate change in the presence of internal climate variability. All CESM-LE simulations use a single CMIP5 model (CESM with the Community Atmosphere Model, version 5). The core simulations replay the twenty to twenty-first century (1920–2100) 30 times under historical and representative concentration pathway 8.5 external forcing with small initial condition differences. Two companion 1000+-yr-long preindustrial control simulations (fully coupled, prognostic atmosphere and land only) allow assessment of internal climate variability in the absence of climate change. Comprehensive outputs, including many daily fields, are available as single-variable time series on the Earth System Grid for anyone to use. Early results demonstrate the substantial influence of internal climate variability on twentieth- to twenty-first-century climate trajectories. Global warming hiatus decades occur, similar to those recently observed. Internal climate variability alone can produce projection spread comparable to that in CMIP5. Scientists and stakeholders can use CESM-LE outputs to help interpret the observational record, to understand projection spread and to plan for a range of possible futures influenced by both internal climate variability and forced climate change.
Author J. E. Kay; C. Deser; A. Phillips; A. Mai; C. Hannay; G. Strand; J. M. Arblaster; S. C. Bates; G. Danabasoglu; J. Edwards; M. Holland; P. Kushner; J.-F. Lamarque; D. Lawrence; K. Lindsay; A. Middleton; E. Munoz; R. Neale; K. Oleson; L. Polvani; M. Vertenstein
DOI 10.1175/BAMS-D-13-00255.1
Issue 8
Journal Bulletin of the American Meteorological Society
Keywords Atmosphere-ocean interaction,Walker circulation,Sea surface temperature,Thermocline circulation,Albedo,Paleoclimate
Pages 1333-1349
Title The Community Earth System Model (CESM) large ensemble project: A community resource for studying climate change in the presence of internal climate variability
Volume 96 (12)
Year 2015
Bibliographic identifiers
.reference_type 0
_record_number 19691
_uuid f26485f5-8786-45fe-bcd5-d6980fa32f48