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Interdecadal Variability of the Warm Arctic and Cold Eurasia Pattern and Its North Atlantic Origin

Cited 27 time in wos
Cited 29 time in scopus
Title
Interdecadal Variability of the Warm Arctic and Cold Eurasia Pattern and Its North Atlantic Origin
Other Titles
따뜻한 북극과 차가운 유라시아 패턴과 북대서양 기원의 간접적인 변동성
Authors
Sung, Mi-Kyung
Choi, Yong-Sang
Kim, Baek-Min
Kim, Seon-Hwa
Subject
MeteorologyAtmospheric Sciences
Keywords
Barents/Kara SeasWarm Arctic and Cold Eurasia patterninternal variability
Issue Date
2018-02
Citation
Sung, Mi-Kyung, et al. 2018. "Interdecadal Variability of the Warm Arctic and Cold Eurasia Pattern and Its North Atlantic Origin". JOURNAL OF CLIMATE, 31(15): 5793-5810.
Abstract
This study investigates the origin of the interdecadal variability in the Warm Arctic and Cold Eurasia (WACE) pattern, which is defined as the second empirical orthogonal function of surface air temperature (SAT) variability over Eurasian continent in Northern winter, by analyzing the Twentieth Century Reanalysis dataset. While previous studies highlight recent enhancement of the WACE pattern ascribing it to anthropogenic warming, we found that the WACE pattern has experienced a seemingly periodic interdecadal variation over the twentieth century. This long-term variation in the Eurasian SAT is attributable to the altered coupling between the Siberian High (SH) and intraseasonal Rossby wave emanating from the North Atlantic, as the local wave branch interacts with the SH and consequentially enhances the continental temperature perturbation. It is further identified that these atmospheric circulation changes in Eurasia are largely controlled by the decadal amplitude modulation of the climatological stationary waves over the North Atlantic region. The altered decadal mean condition of stationary wave components brings changes in local baroclinicity and storm track activity over the North Atlantic, which jointly change the intraseasonal Rossby wave generation and propagation characteristics as well. With simple stationary wave model experiments, we confirm how the altered mean flow condition in North Atlantic acts as a source for the growth of the Rossby wave that leads to the change in the downstream WACE pattern.
URI
https://repository.kopri.re.kr/handle/201206/9621
DOI
http://dx.doi.org/10.1175/JCLI-D-17-0562.1
Type
Article
Station
해당사항없음
Indexed
SCI
Appears in Collections  
2015-2018, Dynamics and predictability study of mid-latitude blocking for wintertime seasonal prediction (15-18) / Kim, Baek-Min (PN15040)
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