Global Warming–Induced Changes in El Niño Teleconnections over the North Pacific and North America

Global Warming–Induced Changes in El Niño Teleconnections over the North Pacific and North America

El Niño–Southern Oscillation (ENSO) induces climate anomalies around the globe. Atmospheric general circulation model simulations are used to investigate how ENSO-induced teleconnection patterns during boreal winter might change in response to global warming in the Pacific–North American sector. As...

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Bibliographic Details
Published in:Journal of climate Vol. 27; no. 24; pp. 9050 - 9064
Main Authors: Zhou, Zhen-Qiang, Xie, Shang-Ping, Zheng, Xiao-Tong, Liu, Qinyu, Wang, Hai
Format: Journal Article
Language:English
Published: Boston American Meteorological Society 01-12-2014
Subjects:
Americas
Anomalies
Atmospheric circulation
Atmospheric circulation models
Atmospheric General Circulation Models
Atmospheric models
Atmospherics
Climate
Climate change
Climate models
Convection
Datasets
El Nino
El Nino phenomena
El Nino-Southern Oscillation event
Experiments
General circulation models
Global climate models
Global warming
Oscillations
Pacific-North American (PNA) pattern
Precipitation
Precipitation anomalies
Rainfall
Rainfall anomalies
Sea surface
Sea surface temperature
Southern Oscillation
Studies
Surface temperature
Teleconnection patterns
Teleconnections
Tropical atmosphere
Tropical climates
Tropical convection
North America
IS, Equatorial Pacific
IN, North Pacific
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Summary:El Niño–Southern Oscillation (ENSO) induces climate anomalies around the globe. Atmospheric general circulation model simulations are used to investigate how ENSO-induced teleconnection patterns during boreal winter might change in response to global warming in the Pacific–North American sector. As models disagree on changes in the amplitude and spatial pattern of ENSO in response to global warming, for simplicity the same sea surface temperature (SST) pattern of ENSO is prescribed before and after the climate warming. In a warmer climate, precipitation anomalies intensify and move eastward over the equatorial Pacific during El Niño because the enhanced mean SST warming reduces the barrier to deep convection in the eastern basin. Associated with the eastward shift of tropical convective anomalies, the ENSO-forced Pacific–North American (PNA) teleconnection pattern moves eastward and intensifies under the climate warming. By contrast, the PNA mode of atmospheric internal variability remains largely unchanged in pattern, suggesting the importance of tropical convection in shifting atmospheric teleconnections. As the ENSO-induced PNA pattern shifts eastward, rainfall anomalies are expected to intensify on the west coast of North America, and the El Niño–induced surface warming to expand eastward and occupy all of northern North America. The spatial pattern of the mean SST warming affects changes in ENSO teleconnections. The teleconnection changes are larger with patterned mean warming than in an idealized case where the spatially uniform warming is prescribed in the mean state. The results herein suggest that the eastward-shifted PNA pattern is a robust change to be expected in the future, independent of the uncertainty in changes of ENSO itself.
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ISSN:0894-8755
1520-0442
DOI:10.1175/jcli-d-14-00254.1