Interannual Variability of Snow Depth over the Tibetan Plateau and Its Associated Atmospheric Circulation Anomalies

Abstract The interannual variability of wintertime snow depth over the Tibetan Plateau (TP) and related atmospheric circulation anomalies were investigated based on observed snow depth measurements and NCEP/NCAR reanalysis data. Empirical orthogonal function (EOF) analysis was applied to identify the spatio-temporal variability of wintertime TP snow depth. Snow depth anomalies were dominated by a monopole pattern over the TP and a dipole structure with opposite anomalies over the southeastern and northwestern TP. The atmospheric circulation conditions responsible for the interannual variability of TP snow depth were examined via regression analyses against the principal component of the most dominant EOF mode. In the upper troposphere, negative zonal wind anomalies over the TP with extensively positive anomalies to the south indicated that the southwest-ward shift of the westerly jet may favor the development of surface cyclones over the T P. An anomalous cyclone centered over the southeastern TP was associated with the anomalous westerly jet, which is conducive to heavier snowfall and results in positive snow depth anomalies. An anomalous cyclone was observed at 500 hPa over the TP, with an anomalous anticyclone immediately to the north, suggesting that the TP is frequently affected by surface cyclones. Regression analyses revealed that significant negative thickness anomalies exist around the TP from March to May, with a meridional dipole anomaly in March. The persistent negative anomalies due to more winter TP snow are not conducive to earlier reversal of the meridional temperature gradient, leading to a possible delay in the onset of the Asian summer monsoon.

[1]  J. Mao,et al.  Interannual variability in the onset of the summer monsoon over the Eastern Bay of Bengal , 2007 .

[2]  J. Namias,et al.  CONFLUENCE THEORY OF THE HIGH TROPOSPHERIC JET STREAM , 1949 .

[3]  R. Reynolds,et al.  The NCEP/NCAR 40-Year Reanalysis Project , 1996, Renewable Energy.

[4]  T. Zhou,et al.  Increased Tibetan Plateau snow depth: An indicator of the connection between enhanced winter NAO and late-spring tropospheric cooling over East Asia , 2010 .

[5]  Tong Wu,et al.  The Relation between the Tibetan Winter Snow and the Asian Summer Monsoon and Rainfall: An Observational Investigation. , 2003 .

[6]  T. Zhou,et al.  Impacts of winter‐NAO on March cooling trends over subtropical Eurasia continent in the recent half century , 2004 .

[7]  Tianjun Zhou,et al.  Atmospheric water vapor transport associated with typical anomalous summer rainfall patterns in China , 2005 .

[8]  K. Lau,et al.  Precursory signals associated with the interannual variability of the Asian summer monsoon , 1996 .

[9]  J. Chan,et al.  Relationship between the Onset of the South China Sea Summer Monsoon and the Structure of the Asian Subtropical Anticyclone , 2004 .

[10]  O. Kumar,et al.  Himalayan winter snow cover area and summer monsoon rainfall over India , 1983 .

[11]  H. Lamb On the General Circulation of the Atmosphere in Middle Latitudes: Southern and Northern Hemispheres Compared , 1948 .

[12]  H. Flohn,et al.  Large-scale aspects of the "summer monsoon" in South and East Asia , 1957 .

[13]  M. Yanai,et al.  The onset and interannual variability of the Asian summer monsoon in relation to land-sea thermal contrast , 1996 .

[14]  H. F. Blanford II. On the connexion of the Himalaya snowfall with dry winds and seasons of drought in India , 1884, Proceedings of the Royal Society of London.

[15]  J. Oh,et al.  Study on Snow Depth Anomaly over Eurasia, Indian Rainfall and Circulations , 2005 .

[16]  J. Mao,et al.  Interannual variability in the onset of the summer monsoon over the Eastern Bay of Bengal , 2007 .

[17]  Tetsuzo Yasunari,et al.  Local and Remote Responses to Excessive Snow Mass over Eurasia Appearing in the Northern Spring and Summer Climate A Study with the MRI * GCM , 1991 .

[18]  Ashwini Kulkarni,et al.  Western Himalayan snow cover and Indian monsoon rainfall: A re-examination with INSAT and NCEP/NCAR data , 2003 .

[19]  J. Shukla,et al.  An Apparent Relationship between Eurasian Snow Cover and Indian Monsoon Rainfall , 1976 .

[20]  Robert F. Cahalan,et al.  Sampling Errors in the Estimation of Empirical Orthogonal Functions , 1982 .

[21]  C. Rossby On the Distribution of Angular Velocity in Gaseous Envelopes Under the Influence of Large-Scale Horizontal Mixing Processes* , 1947 .