Spring snow-disappearance timing and its possible influence on temperaturefields over central Eurasia

Citation
M. Shinoda et al., Spring snow-disappearance timing and its possible influence on temperaturefields over central Eurasia, J METEO JPN, 79(1), 2001, pp. 37-59
Citations number
23
Categorie Soggetti
Earth Sciences
Journal title
JOURNAL OF THE METEOROLOGICAL SOCIETY OF JAPAN
ISSN journal
00261165 → ACNP
Volume
79
Issue
1
Year of publication
2001
Pages
37 - 59
Database
ISI
SICI code
0026-1165(200102)79:1<37:SSTAIP>2.0.ZU;2-X
Abstract
An observational study of snow-cover/atmosphere interactions that occur ove r Eurasia during the spring snow-disappearance season was conducted. Snow-d isappearance timing was determined using five-day averaged snow depth data for 1966 to 1990 in the former Soviet Union (FSU). The climatological snow disappeared in the FSU area during early March in the southwest, and later during early June in the northeast. An empirical orthogonal function (EOF) analysis was applied to interannual anomalies of the snow-disappearance tim ings. The first EOF is the continental mode with widespread loadings of the same sign, the second mode (EOF2) is characterized by a loading pattern wi th an east-west dipole structure. The regional focus is placed on central E urasia in the western pole of the EOF2 loadings, since the spring snow-cove r for this region is found to exhibit a significant correlation with the In dian summer monsoon. A composite analysis for the opposite phases of EOF2 shows that, regardless of the leading snow depth during the late winter, the enhanced (reduced) l arge-scale advection of southerly warm upper-air towards central Eurasia du ring March and April was most likely to cause the earlier (later) snow disa ppearance. During mid-April, surface air temperature anomalies are largest over a wide area of central Eurasia, which has high variability in snow-cov er extent, and south of the area. These temperature anomalies are larger th an those at the 500 hPa level, likely due to the effect of the snow-cover, whereas the temperature anomalies disappeared by early May. This suggests t hat the snow-cover anomalies over central Eurasia may not have a direct eff ect on the Indian summer monsoon through the land-surface/atmosphere intera ction.