Back to Search Start Over

Spatiotemporal patterns of snow depth within the Swiss‐Austrian Alps for the past half century (1961 to 2012) and linkages to climate change.

Authors :
Schöner, Wolfgang
Koch, Roland
Matulla, Christoph
Marty, Christoph
Tilg, Anna‐Maria
Source :
International Journal of Climatology; Mar2019, Vol. 39 Issue 3, p1589-1603, 15p
Publication Year :
2019

Abstract

Our current knowledge on multi‐decadal to centennial changes of snow in different parts of the world is based largely on observations of snow depth and depth of snowfall from national weather and hydrographic services. Studies analysing these snow observations in the European Alps are predominantly based on national data and are therefore limited by their respective borders in the detection of robust, spatiotemporal snow trends. In order to overcome this limitation, data from Austria and Switzerland, which cover a substantial fraction of the Alps when taken together, are merged for this study (196 station‐records). Additionally, it is the first time that such an analysis is based on homogenized data. Our homogenization study shows that, although the detection of breaks in snow depth series works quite well with the existing methods, further research is needed to adequately correct snow depth series at a daily resolution. Roughly, 70% (139 station‐records) of the snow depth series could be homogenized and are used for further trend analysis. The findings concern seven climatologically different areas that are identified by a regionalization (using empirical orthogonal functions) using station records from 1961 to 2012. These regions share a high degree of inner similarity and outer separation, and the temporal trends detected are rather different across the Swiss‐Austrian domain. Regions in the south show a clear decrease in the snow depth of up to −12 cm/decade on average, while those in the northeast are characterized by almost no change. The declining trend in the southern regions intensifies as altitude increases. Comparisons of these variations in depth changes with concurrent changes in air temperature and precipitation totals reveal a clear dichotomy with respect to elevation. Snow depths in low elevated areas are highly sensitive to air temperature changes, whereas those at high elevations strongly depend on alterations in precipitation totals. Snow depth observations of the Swiss‐Austrian region for the past half century show strikingly different trends. Whereas in particular the South of Austria is characterized by strongly decreasing snow depths, in the northeastern part of Austria they are almost unchanged. Our analyses show, that snow depth changes to a greater extent are forced by air temperature for low elevation regions, whereas for high elevation regions changes are sensitive to precipitation. The figure shows the Mann Kendall trend over the period 1961‐2012 for mean snow depth (November to April) at 139 stations within the Swiss‐Austrian area. White: no significant trend; Orange: significantly negative at a 95% confidence level; Red: significantly negative at a 99% confidence level. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
08998418
Volume :
39
Issue :
3
Database :
Complementary Index
Journal :
International Journal of Climatology
Publication Type :
Academic Journal
Accession number :
135020473
Full Text :
https://doi.org/10.1002/joc.5902