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Intraseasonal Melting of Northern Barents Sea Ice Forced by Circumpolar Clockwise-Propagating Atmospheric Waves during Early Summer

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Title
Intraseasonal Melting of Northern Barents Sea Ice Forced by Circumpolar Clockwise-Propagating Atmospheric Waves during Early Summer
Other Titles
초여름 대기의 파동에의한 카라-바렌츠 해빙의 계절내 감소에 대한 연구
Authors
Jing Yang
Siyu Li
Tao Zhu
Xin Qi
Jiping Liu
Kim, Seong-Joong
Daoyi Gong
Keywords
계절내 변동대기의 파동카라-바렌츠해빙
Issue Date
2022
Citation
Jing Yang, et al. 2022. "Intraseasonal Melting of Northern Barents Sea Ice Forced by Circumpolar Clockwise-Propagating Atmospheric Waves during Early Summer". JOURNAL OF CLIMATE, 35(17): 5703-5718.
Abstract
Arctic sea ice intraseasonal variation (ISV) is crucial for understanding and predicting atmospheric subseasonal variations over the middle and high latitudes but uncharted. Sea ice concentration (SIC) over the northern Barents Sea (NBS) features large ISV during the melting season (Apr.-Jul.). Based on the observed SIC, this study found that the NBS SIC ISV in the melting season is dominated by 30?60-day periodicity. The composite analysis, using 34 significant 30?60-day sea ice melting events during 1989-2017, demonstrates that the 30?60-day circumpolar clockwise propagating atmospheric waves (CCPW) is concurrent with the NBS SIC ISV, which features zonal wavenumber one along 65°N and a typical quasi-barotropic structure. Further analysis finds the 30?60-day surface air temperature (SAT) evidently leads the SIC variations by nearly 6 days over the NBS, which is primarily caused by low-level meridional thermal advection linked with the 30?60-day CCPW. The positive anomaly of the downward sensible heat and longwave radiative fluxes, caused by the increased SAT and atmospheric moisture, play the dominant roles in melting the sea ice in the 30?60-day time scale over the NBS. The increased atmospheric moisture is mainly ascribed to the increased horizontal moisture advection influence by the 30?60-day CCPW. This study strongly suggests that the atmospheric ISV is a crucial precursor for NBS sea ice intraseasonal changes in boreal summer, and more accurate subseasonal predictions of atmospheric circulation, temperature, and moisture are indispensable for improving sea ice subseasonal prediction over the Arctic region.
URI
https://repository.kopri.re.kr/handle/201206/14076
DOI
http://dx.doi.org/10.1175/JCLI-D-21-0538.1
Type
Article
Station
기타(북극 카라-바렌츠 해)
Indexed
SCIE
Appears in Collections  
2022-2022, Earth System Model-based Korea Polar Prediction System (KPOPS-Earth) Development and Its Application to the High-impact Weather Events originated from the Changing Arctic Ocean and Sea Ice (22-22) / Kim, Joo-Hong (PE22010)
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