Winter Weather Patterns over Northern Eurasia and Arctic Sea Ice Loss

Using NCEP–NCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December–28 February) data for the period 1979–2012, this paper reveals the leading pattern of winter daily 850-hPa wind variability over northern Eurasia from a dynamic perspective. The results show that the leading p...

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Published in	Monthly weather review Vol. 141; no. 11; pp. 3786 - 3800
Main Authors	Wu, Bingyi, Handorf, Dörthe, Dethloff, Klaus, Rinke, Annette, Hu, Aixue
Format	Journal Article
Language	English
Published	Boston, MA American Meteorological Society 01.11.2013
Subjects	Air temperature Atmosphere Climatology Cold Cyclones Earth, ocean, space East Asia Exact sciences and technology External geophysics Extreme weather Kinetic energy Latitude Marine Meteorology Sea ice Snow Surface temperature Temperature Trends Weather Weather patterns Wind Winter Asia Eurasia Europe Japan Arctic Ocean Southern Europe Far East Central Asia East Asia Arctic region INW, Asia ANE, Europe PN, Arctic PNE, Eurasia INW, Japan High latitude Mid latitude Total energy trend-surface analysis Anticyclone Wind field kinetic energy Autumn atmospheric precipitation Extreme event Surface temperature East Asia anomalies intensity Atmospheric temperature Winter extreme value winds sea ice Reanalysis Polar region
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Abstract	Using NCEP–NCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December–28 February) data for the period 1979–2012, this paper reveals the leading pattern of winter daily 850-hPa wind variability over northern Eurasia from a dynamic perspective. The results show that the leading pattern accounts for 18% of the total anomalous kinetic energy and consists of two subpatterns: the dipole and the tripole wind patterns. The dipole wind pattern does not exhibit any apparent trend. The tripole wind pattern, however, has displayed significant trends since the late 1980s. The negative phase of the tripole wind pattern corresponds to an anomalous anticyclone over northern Eurasia during winter, as well as two anomalous cyclones occurring over southern Europe and in the mid- to high latitudes of East Asia. These anomalous cyclones in turn lead to enhanced winter precipitation in these two regions, as well as negative surface temperature anomalies over the mid- to high latitudes of Asia. The intensity of the tripole wind pattern and the frequency of its extreme negative phase are significantly correlated with autumn Arctic sea ice anomalies. Simulation experiments further demonstrate that the winter atmospheric response to Arctic sea ice decrease is dynamically consistent with the observed trend in the tripole wind pattern over the past 24 winters, which is one of the causes of the observed declining winter surface air temperature trend over Central and East Asia. The results of this study also imply that East Asia may experience more frequent and/or intense winter extreme weather events in association with the loss of Arctic sea ice.
AbstractList	Using NCEPNCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December28 February) data for the period 19792012, this paper reveals the leading pattern of winter daily 850-hPa wind variability over northern Eurasia from a dynamic perspective. The results show that the leading pattern accounts for 18% of the total anomalous kinetic energy and consists of two subpatterns: the dipole and the tripole wind patterns. The dipole wind pattern does not exhibit any apparent trend. The tripole wind pattern, however, has displayed significant trends since the late 1980s. The negative phase of the tripole wind pattern corresponds to an anomalous anticyclone over northern Eurasia during winter, as well as two anomalous cyclones occurring over southern Europe and in the mid- to high latitudes of East Asia. These anomalous cyclones in turn lead to enhanced winter precipitation in these two regions, as well as negative surface temperature anomalies over the mid- to high latitudes of Asia. The intensity of the tripole wind pattern and the frequency of its extreme negative phase are significantly correlated with autumn Arctic sea ice anomalies. Simulation experiments further demonstrate that the winter atmospheric response to Arctic sea ice decrease is dynamically consistent with the observed trend in the tripole wind pattern over the past 24 winters, which is one of the causes of the observed declining winter surface air temperature trend over Central and East Asia. The results of this study also imply that East Asia may experience more frequent and/or intense winter extreme weather events in association with the loss of Arctic sea ice. Using NCEP–NCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December–28 February) data for the period 1979–2012, this paper reveals the leading pattern of winter daily 850-hPa wind variability over northern Eurasia from a dynamic perspective. The results show that the leading pattern accounts for 18% of the total anomalous kinetic energy and consists of two subpatterns: the dipole and the tripole wind patterns. The dipole wind pattern does not exhibit any apparent trend. The tripole wind pattern, however, has displayed significant trends since the late 1980s. The negative phase of the tripole wind pattern corresponds to an anomalous anticyclone over northern Eurasia during winter, as well as two anomalous cyclones occurring over southern Europe and in the mid- to high latitudes of East Asia. These anomalous cyclones in turn lead to enhanced winter precipitation in these two regions, as well as negative surface temperature anomalies over the mid- to high latitudes of Asia. The intensity of the tripole wind pattern and the frequency of its extreme negative phase are significantly correlated with autumn Arctic sea ice anomalies. Simulation experiments further demonstrate that the winter atmospheric response to Arctic sea ice decrease is dynamically consistent with the observed trend in the tripole wind pattern over the past 24 winters, which is one of the causes of the observed declining winter surface air temperature trend over Central and East Asia. The results of this study also imply that East Asia may experience more frequent and/or intense winter extreme weather events in association with the loss of Arctic sea ice. Using NCEP-NCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December-28 February) data for the period 1979-2012, this paper reveals the leading pattern of winter daily 850-hPa wind variability over northern Eurasia from a dynamic perspective. The results show that the leading pattern accounts for 18% of the total anomalous kinetic energy and consists of two subpatterns: the dipole and the tripole wind patterns. The dipole wind pattern does not exhibit any apparent trend. The tripole wind pattern, however, has displayed significant trends since the late 1980s. The negative phase of the tripole wind pattern corresponds to an anomalous anticyclone over northern Eurasia during winter, as well as two anomalous cyclones occurring over southern Europe and in the mid- to high latitudes of East Asia. These anomalous cyclones in turn lead to enhanced winter precipitation in these two regions, as well as negative surface temperature anomalies over the mid- to high latitudes of Asia. The intensity of the tripole wind pattern and the frequency of its extreme negative phase are significantly correlated with autumn Arctic sea ice anomalies. Simulation experiments further demonstrate that the winter atmospheric response to Arctic sea ice decrease is dynamically consistent with the observed trend in the tripole wind pattern over the past 24 winters, which is one of the causes of the observed declining winter surface air temperature trend over Central and East Asia. The results of this study also imply that East Asia may experience more frequent and/or intense winter extreme weather events in association with the loss of Arctic sea ice. [PUBLICATION ABSTRACT]
Author	Wu, Bingyi Dethloff, Klaus Rinke, Annette Hu, Aixue Handorf, Dörthe
Author_xml	– sequence: 1 givenname: Bingyi surname: Wu fullname: Wu, Bingyi organization: Chinese Academy of Meteorological Sciences, Beijing, China – sequence: 2 givenname: Dörthe surname: Handorf fullname: Handorf, Dörthe organization: Research Unit Potsdam, Alfred Wegener Institute for Polar and Marine Research, Potsdam, Germany – sequence: 3 givenname: Klaus surname: Dethloff fullname: Dethloff, Klaus organization: Research Unit Potsdam, Alfred Wegener Institute for Polar and Marine Research, Potsdam, Germany – sequence: 4 givenname: Annette surname: Rinke fullname: Rinke, Annette organization: Research Unit Potsdam, Alfred Wegener Institute for Polar and Marine Research, Potsdam, Germany – sequence: 5 givenname: Aixue surname: Hu fullname: Hu, Aixue organization: Climate and Global Dynamics Division, National Center for Atmospheric Research, Boulder, Colorado
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Snippet	Using NCEP–NCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December–28 February) data for the period 1979–2012, this paper reveals the... Using NCEP-NCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December-28 February) data for the period 1979-2012, this paper reveals the... Using NCEPNCAR reanalysis and Japanese 25-yr Reanalysis (JRA-25) winter daily (1 December28 February) data for the period 19792012, this paper reveals the...
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SubjectTerms	Air temperature Atmosphere Climatology Cold Cyclones Earth, ocean, space East Asia Exact sciences and technology External geophysics Extreme weather Kinetic energy Latitude Marine Meteorology Sea ice Snow Surface temperature Temperature Trends Weather Weather patterns Wind Winter
Title	Winter Weather Patterns over Northern Eurasia and Arctic Sea Ice Loss
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