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Global energy budget changes to high latitude North Atlantic cooling and the tropical ITCZ response

Journal Article · · Climate Dynamics
 [1];
  1. University of California, Berkeley
+ Show Author Affiliations
The intertropical convergence zone (ITCZ) in atmospheric general circulation models (coupled to slab ocean) shift southwards in response to northern extratropical cooling. Previous studies have demonstrated the utility of diagnosing the atmospheric energy fluxes in interpreting this teleconnection. This study investigates the nature of global energy flux changes in response to North Atlantic high latitude cooling applied to the Community Atmosphere Model version 3 coupled to a slab ocean, focusing on key local and remote feedbacks that collectively act to alter the energy budget and atmospheric energy transport. We also investigate the relative roles of tropical sea surface temperature (SST) and energy flux changes in the ITCZ response to North Atlantic cooling. Using a radiative kernel technique, we quantify the effects of key feedbacks—temperature, cloud and water vapor, to the top-of-the-atmosphere radiative flux changes. The results show only partial local energy flux compensation to the initial perturbation in the high latitudes, originating from the negative temperature feedback and opposed by positive shortwave albedo and longwave water vapor feedbacks. Thus, an increase in the atmospheric energy transport to the Northern extratropics is required to close the energy budget. The additional energy flux providing this increase comes from top-of-the-atmosphere radiative flux increase over the southern tropics, primarily from cloud, temperature and longwave water vapor feedbacks, and largely as a consequence of increased deep convection. It has been previously argued that the role of tropical SST changes was secondary to the role played by the atmospheric energy flux requirements in controlling the ITCZ shifts, proposing that the SST response is a result of the surface energy budget and not a driver of the precipitation response. Using a set of idealized simulations with the fixed tropical SSTs, we demonstrate that the ITCZ shifts are not possible without the tropical SST changes and suggest that the tropical SSTs are a more suitable driver of tropical precipitation shifts compared to the atmospheric energy fluxes. In our simulations, the ITCZ shifts are influenced mainly by the local (tropical) SST forcing, apparently independent of the actual high latitude energy demand.
Research Organization:
Univ. of California, Berkeley, CA (United States)
Sponsoring Organization:
USDOE SC Office of Biological and Environmental Research (SC-23)
DOE Contract Number:
FG02-08ER64588
OSTI ID:
1053835
Report Number(s):
DOE/08ER64588-1
Journal Information:
Climate Dynamics, Journal Name: Climate Dynamics Journal Issue: 5-6 Vol. 40; ISSN 0930-7575
Publisher:
Springer-Verlag
Country of Publication:
United States
Language:
English

References (35)

Millennial- and orbital-scale changes in the East Asian monsoon over the past 224,000 years journal February 2008
State of the Climate in 2008 journal August 2009
Response of the ITCZ to Northern Hemisphere cooling: ITCZ RESPONSE TO N. HEMISPHERE COOLING journal January 2006
Using the Radiative Kernel Technique to Calculate Climate Feedbacks in NCAR’s Community Atmospheric Model journal May 2008
The Formulation and Atmospheric Simulation of the Community Atmosphere Model Version 3 (CAM3) journal June 2006
Sensitivity of the Atlantic Intertropical Convergence Zone to Last Glacial Maximum boundary conditions: LGM ATLANTIC ITCZ journal December 2003
Global Teleconnections in Response to a Shutdown of the Atlantic Meridional Overturning Circulation journal June 2008
On the link between Hadley circulation changes and radiative feedback processes journal January 2009
Role of eddies in the interannual variability of Hadley cell strength journal January 2007
The Land Surface Climatology of the Community Land Model Coupled to the NCAR Community Climate Model* journal November 2002
The Effect of Local Sea Surface Temperatures on Atmospheric Circulation over the Tropical Atlantic Sector journal July 2000
Eastern Pacific cooling and Atlantic overturning circulation during the last deglaciation journal October 2006
The Influence of a Weakening of the Atlantic Meridional Overturning Circulation on ENSO journal October 2007
The Tropical Response to Extratropical Thermal Forcing in an Idealized GCM: The Importance of Radiative Feedbacks and Convective Parameterization journal September 2009
Holocene Forcing of the Indian Monsoon Recorded in a Stalagmite from Southern Oman journal June 2003
Weakened atmospheric energy transport feedback in cold glacial climates journal January 2011
On the Role of Sea Surface Temperature Gradients in Forcing Low-Level Winds and Convergence in the Tropics journal September 1987
Quantifying Climate Feedbacks Using Radiative Kernels journal July 2008
The Role of the Wind–Evaporation–Sea Surface Temperature (WES) Feedback as a Thermodynamic Pathway for the Equatorward Propagation of High-Latitude Sea Ice–Induced Cold Anomalies journal March 2011
Mechanisms for millennial‐scale global synchronization during the last glacial period journal October 2005
Rapid Changes in the Hydrologic Cycle of the Tropical Atlantic During the Last Glacial journal December 2000
Millennial-scale variations in hydrography and biogeochemistry in the Eastern Equatorial Pacific over the last 100 kyr journal January 2011
Variability in the mean latitude of the Atlantic Intertropical Convergence Zone as recorded by riverine input of sediments to the Cariaco Basin (Venezuela) journal May 2006
Synchroneity of Tropical and High-Latitude Atlantic Temperatures over the Last Glacial Termination journal September 2003
A Dynamic Ocean–Atmosphere Model of the Tropical Atlantic Decadal Variability journal January 1999
Influence of high latitude ice cover on the marine Intertropical Convergence Zone journal July 2005
The Response of the ITCZ to Extratropical Thermal Forcing: Idealized Slab-Ocean Experiments with a GCM journal July 2008
Northern timing of deglaciation in the eastern equatorial Pacific from alkenone paleothermometry: NORTHERN TIMING OF EEP DEGLACIATION journal October 2008
Hadley Circulations for Zonally Averaged Heating Centered off the Equator journal September 1988
Impact of midlatitude stationary waves on regional Hadley cells and ENSO journal January 2009
Deconstructing Atlantic Intertropical Convergence Zone variability: Influence of the local cross-equatorial sea surface temperature gradient and remote forcing from the eastern equatorial Pacific journal January 2002
Hadley Cell Dynamics in a Primitive Equation Model. Part II: Nonaxisymmetric Flow journal October 2001
Eddy Influences on Hadley Circulations: Simulations with an Idealized GCM journal December 2006
Paleoclimate history of Galápagos surface waters over the last 135,000yr journal June 2006
Synchronous Tropical South China Sea SST Change and Greenland Warming During Deglaciation journal March 2001

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