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Title: Feedback attribution of the land-sea warming contrast in a global warming simulation of the NCAR CCSM4

Journal Article · · Environmental Research Letters
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One of the salient features in both observations and climate simulations is a stronger land warming than sea. This paper provides a quantitative understanding of the main processes that contribute to the land-sea warming asymmetry in a global warming simulation of the NCAR CCSM4. The CO2 forcing alone warms the surface nearly the same for both land and sea, suggesting that feedbacks are responsible for the warming contrast. Our analysis on one hand confirms that the principal contributor to the above-unity land-to-sea warming ratio is the evaporation feedback; on the other hand the results indicate that the sensible heat flux feedback has the largest land-sea warming difference that favors a greater ocean than land warming. Furthermore, the results uniquely highlight the importance of other feedbacks in establishing the above-unity land-to-sea warming ratio. Particularly, the SW cloud feedback and the ocean heat storage in the transient response are key contributors to the greater warming over land than sea.

Research Organization:
Florida State Univ., Tallahassee, FL (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
SC0004974; SC0005596
OSTI ID:
1222385
Alternate ID(s):
OSTI ID: 1455015
Journal Information:
Environmental Research Letters, Journal Name: Environmental Research Letters Vol. 9 Journal Issue: 12; ISSN 1748-9326
Publisher:
IOP PublishingCopyright Statement
Country of Publication:
United Kingdom
Language:
English
Citation Metrics:
Cited by: 18 works
Citation information provided by
Web of Science

References (12)

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Individual Feedback Contributions to the Seasonality of Surface Warming journal July 2014
Land/sea warming ratio in response to climate change: IPCC AR4 model results and comparison with observations journal January 2007
Dependence of the land-sea contrast in surface climate response on the nature of the forcing journal January 2008
Land–Ocean Warming Contrast over a Wide Range of Climates: Convective Quasi-Equilibrium Theory and Idealized Simulations journal June 2013
Mechanisms for the land/sea warming contrast exhibited by simulations of climate change journal September 2007
Control of land-ocean temperature contrast by ocean heat uptake: LAND-OCEAN TEMPERATURE CONTRAST journal July 2007
Understanding Land–Sea Warming Contrast in Response to Increasing Greenhouse Gases. Part I: Transient Adjustment journal June 2009
A Decomposition of Feedback Contributions to Polar Warming Amplification journal September 2013
Quantifying Climate Feedbacks Using Radiative Kernels journal July 2008

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Related Subjects

54 ENVIRONMENTAL SCIENCES
global warming
land-sea contrast
climate feedbacks
climate change