Decadal variability in springtime snow over Eurasia: Relation with circulation and possible influence on springtime rainfall over China

The relationship between decadal variability in springtime (March–May) snow water equivalent (SWE) over Eurasia and springtime rainfall over China is investigated for 1979–2004 using satellite‐observed SWE, rainfall observations from 595 stations, and NCEP/NCAR reanalysis data. Decreasing springtime...

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Published inInternational journal of climatology Vol. 32; no. 9; pp. 1336 - 1345
Main Authors Zuo, Zhiyan, Zhang, Renhe, Wu, Bingyi, Rong, Xinyao
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 01.07.2012
Wiley
Subjects
atmospheric circulation
decadal variability
Earth, ocean, space
Eurasian snow
Exact sciences and technology
External geophysics
Meteorology
springtime rainfall
Far East
Asia
Eurasia
China
High latitude
Teleconnection
rainfall
atmospheric precipitation
Space remote sensing
Satellite observation
decadal variability
feedback
Eurasian snow
snow
Spring(season)
Water equivalent
Decadal variation
Reanalysis
atmospheric circulation
springtime rainfall
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Abstract The relationship between decadal variability in springtime (March–May) snow water equivalent (SWE) over Eurasia and springtime rainfall over China is investigated for 1979–2004 using satellite‐observed SWE, rainfall observations from 595 stations, and NCEP/NCAR reanalysis data. Decreasing springtime SWE in Eurasia corresponded to reduced springtime rainfall over southeastern and northeast China, and more rainfall over southwestern and northwestern China. This relationship was supported by the feedback effect of snow in high‐latitude areas to changes in background atmospheric circulation. A decadal shift in springtime Eurasian SWE occurred in the late 1980s, marked by a change from persistent positive phases in 1979–1987 to frequent negative phases. The reduction in Eurasian SWE resulted in reduced upward surface heat flux to the atmosphere and, thereby, higher boundary layer height due to increased downward heat flux into subsurface soil. These changes resulted in reduced upward and poleward wave flux activity, which corresponded to anomalous negative heights/pressures in the Arctic and anomalous positive heights/pressures in mid‐latitude regions from the upper‐level troposphere to the surface. There was an anomalous anti‐cyclonic circulation over Siberia and the western Pacific subtropical high was weakened, accompanied by an anomalous northerly in eastern China and westerly in northwestern China. The anomalous northerly resulted in reduced water vapour convergence in southeastern and northeast China, and reduced water vapour export for southwestern and northwestern China. Thus, negative rainfall anomalies developed over southeastern and northeast China, and positive rainfall anomalies appeared over southwestern and northwestern China. Copyright © 2011 Royal Meteorological Society
AbstractList The relationship between decadal variability in springtime (March–May) snow water equivalent (SWE) over Eurasia and springtime rainfall over China is investigated for 1979–2004 using satellite‐observed SWE, rainfall observations from 595 stations, and NCEP/NCAR reanalysis data. Decreasing springtime SWE in Eurasia corresponded to reduced springtime rainfall over southeastern and northeast China, and more rainfall over southwestern and northwestern China. This relationship was supported by the feedback effect of snow in high‐latitude areas to changes in background atmospheric circulation. A decadal shift in springtime Eurasian SWE occurred in the late 1980s, marked by a change from persistent positive phases in 1979–1987 to frequent negative phases. The reduction in Eurasian SWE resulted in reduced upward surface heat flux to the atmosphere and, thereby, higher boundary layer height due to increased downward heat flux into subsurface soil. These changes resulted in reduced upward and poleward wave flux activity, which corresponded to anomalous negative heights/pressures in the Arctic and anomalous positive heights/pressures in mid‐latitude regions from the upper‐level troposphere to the surface. There was an anomalous anti‐cyclonic circulation over Siberia and the western Pacific subtropical high was weakened, accompanied by an anomalous northerly in eastern China and westerly in northwestern China. The anomalous northerly resulted in reduced water vapour convergence in southeastern and northeast China, and reduced water vapour export for southwestern and northwestern China. Thus, negative rainfall anomalies developed over southeastern and northeast China, and positive rainfall anomalies appeared over southwestern and northwestern China. Copyright © 2011 Royal Meteorological Society
Author Wu, Bingyi
Zhang, Renhe
Rong, Xinyao
Zuo, Zhiyan
Author_xml – sequence: 1
  givenname: Zhiyan
  surname: Zuo
  fullname: Zuo, Zhiyan
  email: zyzuo@cams.cma.gov.cn
  organization: Chinese Academy of Meteorological Sciences, Beijing, China
– sequence: 2
  givenname: Renhe
  surname: Zhang
  fullname: Zhang, Renhe
  organization: Chinese Academy of Meteorological Sciences, Beijing, China
– sequence: 3
  givenname: Bingyi
  surname: Wu
  fullname: Wu, Bingyi
  organization: Chinese Academy of Meteorological Sciences, Beijing, China
– sequence: 4
  givenname: Xinyao
  surname: Rong
  fullname: Rong, Xinyao
  organization: Chinese Academy of Meteorological Sciences, Beijing, China
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Issue 9
Keywords High latitude
Teleconnection
rainfall
atmospheric precipitation
Space remote sensing
Satellite observation
decadal variability
feedback
Eurasian snow
snow
Spring(season)
Water equivalent
Decadal variation
Reanalysis
atmospheric circulation
springtime rainfall
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Zhang Y, Li T, Wang B. 2004. Decadal change of the spring snow depth over the Tibetan Plateau: The associated circulation and influence on the East Asian summer monsoon. Journal of Climate 17: 2780-2793.
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Yang S. 1996. ENSO-snow-monsoon associations and seasonal-interannual predictions. International Journal of Climatology 16: 125-134.
Cohen J. 1994. Snow cover and climate. Weather 49: 150-156.
1973; 101
1999; 26
1984; 23
2003; 16
2005
1994; 49
1999; 125
2001; 28
2004; 109
2001; 129
1989; 46
1996; 16
2003; 74
2005; 24
1996; 12
1998; 25
1995; 8
2001; 21
2009a; 90
1980; 37
2003; 108
2009b; 36
1991; 69
2000; 17
1976; 33
2000; 126
2004; 17
1999; 15
2002; 22
1999; 12
2007; 85B
1884; 37
1910; 21
1994; 14
1998; 103
2008; 22
2007; 20
1998; 12
1983; 88
1983; 22
2003; 23
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Snippet The relationship between decadal variability in springtime (March–May) snow water equivalent (SWE) over Eurasia and springtime rainfall over China is...
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SubjectTerms atmospheric circulation
decadal variability
Earth, ocean, space
Eurasian snow
Exact sciences and technology
External geophysics
Meteorology
springtime rainfall
Title Decadal variability in springtime snow over Eurasia: Relation with circulation and possible influence on springtime rainfall over China
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjoc.2355
Volume 32
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