Summary
The paper discusses annual to decadal climate variability and change in the European Alps by utilizing the procedure of synoptic downscaling, i.e. it investigates the influence of global to continental scale synoptic structures and processes on the regional climate of the Alps. The European Alps lie to the southeast and under the right exit zone of the southwest-northeast oriented axis of the polar front jet over the North Atlantic ocean, in a transition zone between the Azores high and Icelandic low, between oceanic and continental and between Mediterranean and North Atlantic climates. Together with complex topographically induced phenomena like lee cyclogenesis, orographic precipitation, strong downslope winds and thermotopographical circulation systems, this transitional position makes climate studies in the Alps even more interesting. Only a minor correlation can be observed between global climate variability and Alpine climate. In contrast, the Alpine climate is strongly related to processes over the North Atlantic ocean and its sea ice system (e.g. it has a high correlation with the North Atlantic Oscillation and the dynamics and position of the Icelandic low), an area with a rather low climate prediction potential.
Since the early 1970's (or just after the “Great Salinity Anomaly” in the North Atlantic Ocean) the intensification of the wintertime westerly jet over the North Atlantic area led to a noticeable northwest-southeast mass transport in the exit area of the jet over Central Europe, leading to pressure and temperature rises and an increase in the amount of precipitation. There is a question over whether this phenomenon is a consequence of natural climate variability or the beginning of an anthropogenic climate change.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Auer, I., Böhm, R., Mohnl, H., 1993: Climatic change on Sonnblick — a multielemental approach to describe climatic change using a centennial data set. Proceed. 8th Conf. on Appl. Climatol, AMS, 249–251.
Bardossy, A., Caspary, H. R., 1990: Detection of climate change in Europe by analysing European atmospheric circulation patterns from 1881 to 1889.Theor. Appl. Climatol. 42, 155–167.
Barnston, A. G., Livezey, R. E., 1987: Classification, seasonality and persistence of low-frequency atmospheric circulation patterns.Mon. Wea. Rev. 115, 1825–1850.
Barry, R. G., 1978: H.-B. de Saussure: The first mountain meteorologist.Bull. Amer. Meteor. Soc. 59, 702–705
Battisti, D. S., Bhatt, U. S., Alexander, M. A., 1995: A modelling study of the interannual variability in the wintertime North Atlantic ocean.J. Climate,8, 3067–3083.
Beniston, M., Rebetez, M., Giorgi, F., Marinucci, R. R., 1994: An analysis of regional climate change in Switzerland.Theor. Appl. Climatol. 49, 135–159.
Binder, P., Schär, C., 1995: MAP (Mesoscale Alpine Programme). Design proposal, Zurich, 63 pp.
Bjerknes, J., 1964: Atlantic air-sea interactionAdv.Geophys. 20, 1–82.
Bjerknes, J., 1966: A possible response of the atmospheric Hadley circulation to equatorial anomalies of ocean temperature.Tellus 18, 820–829.
Bluestein, H. B., 1993:Synoptic Dynamic Meteorology in Midlatitudes. Vol. II: Observations and Theory of Weather Systems. New York: Oxford University Press, 594 pp.
Brázdil, R., Zolotokrylin, A. N., 1995: The QBO signal in monthly precipitation fields over Europe.Theor. Appl. Climatol. 51, 3–12.
Burroughs, W. S., 1992:Weather Cycles, real or Imaginery? Cambridge: Cambridge Univ. Press, 207 pp.
Carlson, T. N., 1991:Mid-latitude Weather Systems. London: Hammersmith, 507 pp.
Cayan, D. R., 1992: Latent and sensible heat flux anomalies over the northern oceans: driving the sea surface temperature.J. Phys. Oceanogr. 22, 859–881.
Cerutti, A. V., 1987: Raccolta da scritti di Umberto Monterin. II Clima e le sue variazioni, Vol. II. Aosta, 205 pp.
Crowley, T. J., Kim, K.-Y., 1996: Comparison of proxy records of climate change and solar forcing.Geophys. Res. Lett. 23, 359.
Defant, F., Mörth, H. T., 1978: Compendium of meteorology, Vol. I, Part 3 (synoptic meteorology). WMO, No. 364, Geneva, 276 pp.
Deser, C., Blackmon, M. E., 1993: Surface climate variations over the North Atlantic ocean during winter: 1900–1989.J. Climate 6, 1743–1753.
Dickson, R. R., Meincke, J., Malmberg, S.-A., Lee, A. J., 1988: The “Great Salinity Anomaly” in the northern North Atlantic, 1968–1982.Progr. Oceanogr. 20, 103–151.
Ferranti, L., Molteni, F. Palmer, T. N., 1994: Impact of localised tropical and extratropical SST anomalies in ensembles of seasonal GCM integrations.Quart. J. Roy.-Meteor. Soc. 120, 1613–1615.
Fliri, F., 1984: Synoptische Klimatographie der Alpen zwischen Mont Blanc und Hohen Tauern (Schweiz-Tirol-Oberitalien). Wiss. Alpenvereinshefte, Heft 29, Innsbruck, 686 pp.
Flohn, H., Kapala, A., Knoche, H. R., Mächel, H., 1992: Water vapour as an amplifier of the greenhouse effect: new aspects.Meteorol. Z., N. F. 1, 122–138.
Fraedrich, K., 1994: An ENSO impact on Europe? A reviewTellus 46 A, 541–552.
Fraedrich, K., Müller, K., 1992: Climate anomalies in Europe associated with ENSO extremes.Int. J. Climatol. 12, 25–31.
Fraedrich, K., Bautzer, C., Burkhardt, U., 1993: Winter climate anomalies in Europe and their associated circulation at 500hPa.Clim. Dyn. 8, 161–175.
Frankignoul, C., Hasselmann, K., 1977: Stochastic climate models II, Application to sea-surface temperature variability and thermocline variability.Tellus 29, 284–305.
Gedzelman, S. D., 1985: Atmospheric circulation systems. In: Houghton, D. (ed.)Handbook of Meteorology. New York: Wiley and Sons, pp 3–61.
Gerstengarbe, F.-W., Werner, P. C., 1993: Katalog der Grosswetterlagen Europas nach Paul Hess und Helmuth Brezowsky 1881–1892.Ber. Dt. Wetterd., 113, 249 pp.
Gribi, N., 1995: Klimatologische Auswirkungen der Nord-Atlantischen-Oszillation (NAO) auf den Alpenraum. M.thesis Geogr. Inst. Bern, 59 pp.
Grove, J., 1988:The Little Ice Age. London: Methuen, 498 pp.
Gulev, S. K., 1995: Long-term variability of sea-air heat transfer in the North Atlantic ocean.Int. J. Climatol. 15, 825–852.
Hall, N. M. J., Hoskins, B. J., Valdes, P. J., Senior, C. A., 1994: Storm tracks in a high-resolution GCM with doubled carbon dioxide.Quart. J. Roy. Meteor. Soc. 120, 1209–1230.
Halpert, M. S., Ropelewski, C. F., 1992: Sea surface temperature patterns associated with the Southern Oscillation.J. Climate 5, 577–593.
Hastenrath, S., 1985:Climate and Circulation of the Tropics. Dordrecht: D. Reidel, 455 pp.
Hess, P., Brezowsky, H., 1952: Katalog der Grosswetterlagen Europas.Ber. Dt. Wetterd. in der US-Zone, 33, 114 p.
Holzhauser, H., Zumbühl, H. J., 1996: To the history of the Lower Grindelwald Glacier during the last 2800 years — palaeosols, fossil wood and historical pictorial records-new results.Z. Geomorph. N.F. 104, 95–127.
Hurrell, J. W., 1995: Decadal trends in the North Atlantic Oscillation: regional temperatures and precipitation.Science 269, 676–679.
IPCC (Intergovernmental Panel on Climate Change), 1990:Climate Change. The IPCC Scientific Assessment.Cambridge:Cambridge Univ. Press 364 pp.
IPCC (Intergovernmental Panel on Climate Change), 1992:Climate Change. The Supplementary Report to the IPCC Scientific Assessment. Cambridge: Cambridge Univ. Press, 200 pp.
IPCC (Intergovernmental Panel on Climate Change), 1995:Climate Change 1995. The Science of Climate Change. Contribution of Working Group I to the Second Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge Univ. Press, 572 pp.
Jacobeit, J., 1993: Regionale Unterschiede im atmosphärischen Zirkulationsgeschehen bei globalen Klimaveränderungen.Die Erde 124, 63–77.
Jones, P. D., Wigley, T. M. L., Briffa, K. R., 1987: Monthly mean pressure reconstructions for Europe (back to 1780) and north America (to 1858). U.S. Dept. of Energy, TRO37, 99 pp.
Kerr, R. A., 1996: A new dawn for sun-climate links.Science 271, 1360–1361.
Kiladis, G. N., Diaz, H. F., 1989: Global climatic anomalies associated with extremes in the Southern Oscillation.J. Climate 2, 1069–1090.
Klaus, D., 1993: Zirkulations- und Persistenzänderungen des europäischen Wettergeschehens im Spiegel der Grosswetterlagenstatistik.Erdkunde 47, 85–104.
Kushnir, Y., Lau, N.-C., 1992: The General circulation model response to a North Pacific SST anomaly: Dependence on time scale and pattern polarity.J. Climate 5, 271–283.
Kushnir, Y., 1994: Interdecadal variations in North Atlantic sea surface temperature and associated atmospheric conditions.J. Climate 7, 141–157.
Labitzke, K., van Loon, H., 1988: Associations between the 11-year solar cycle, the QBO and the atmosphere. Part I: The troposphere and stratosphere in the northern hemisphere winter.J. Atmos. Terr. Phys. 50, 197–206.
Lamb, P. J., Peppler, R. A., 1987: North Atlantic Oscillation: Concept and application.Bull. Amer. Meteor. Soc.,68, 1217–1225.
Lau, N.-C., Nath, M. J., 1994: A modelling study of the relative roles of tropical and extratropical SST anomalies in the variability of the global atmosphere-ocean system.J. Climate,7, 1184–1207.
Landsea, C. W., Gray, W. M., Mielke, P. W., Berry, K. J., Berry, K. J. Jr., 1994: Seasonal forecasting of Atlantic hurricane activity.Weather 49, 273–283.
Leathers, D. J., Yarnal, B. M., Palecki, M. A., 1991: The Pacific/North American teleconnection pattern and United States climate. Part I: Regional temperature and precipitation associations.J. Climate 4, 517–528.
Leathers, D. J., Palecki, M. A., 1992: The Pacific/North Americal teleconnection pattern and United States climate. Part II: Temporal characteristics and index specification.J. Climate 7, 707–716.
Lindzen, R. S., 1987: On the development of theory of the QBO.Bull Amer. Meteor. Soc. 68, 329–337.
Luterbacher, J., 1995: Klassifikationsverfahren und klimatologischer Vergleich von monatlichen Bodendruckmustern des späten Maunder Minimums (1675–1704) mit der Normalperiode 1961–1990 über dem nordatlantisch-europäischen Raum. M.thesis Geogr. Inst., Bern, 130 pp.
Malberg, H., Bökens, G., 1993: Änderungen im Druck-/Geopotential-und Temperaturgefälle zwischen Subtropen und Subpolarregion im atlantischen Bereich im Zeitraum 1960–1990.Meteorol. Z. N.F.2, 131–137.
Manabe, S., Stouffer, R. J., 1994: Multiple-century response of a coupled ocean-atmosphere model to an increase of atmospheric carbon dioxide.J. Climate 7, 5–23.
Moses, T., Kiladis, G. N., Diaz, H. F., Barry, R. G., 1987: Characteristics and frequency of reversals in mean sea level pressure in the North Atlantic sector and their relationship to long-term temperature trends.J. Climatol. 7, 13–30.
Ogilvie, A., 1994: Documentary records of climate from Iceland during the Late Maunder Minimum period A.D. to 1675 to 1715 with reference to the isotopic record from Greenland. In: Frenzel, B., Pfister, C., Glaeser, B. (eds.)Climatic Trends and Anomalies in Europe. Stuttgart: Fischer, pp. 9–22.
Palmer, T. N., Sun, Z., 1985: A modelling and obsevational study of the relationship between sea surface temperature in the north-west Atlantic and the atmospheric general circulation.Quart. J. Roy. Meteor. Soc. 111, 947–975.
Peng, S., Fyfe, J., 1996: The coupled patterns between sea level pressure and sea surface temperature in the midlatitude North Atlantic.J. Climate 9, 1824–1839.
Peng, S., Mysak, L. A., 1992: A teleconnection study of interannual sea surface temperature fluctuations in the northern North Atlantic and precipitation and runoff over western Siberia.J. Climate 6, 876–885.
Pettitt, A. N., 1979: A non-parametric approach to the change point problem.J. R. Statist. Soc. (Ser. C.) Stat. 28, 126–135.
Pfister, C., 1984:Klimageschichte der Schweiz 1525–1860. Acad. Helv., Bd. I. Bern: Haupt, 184 pp.
Pfister, C., 1992: Monthly temperature and precipitation in central Europe from 1525–1979: quantifying documentary evidence on weather and its effects. In: Bradley, R. S., Jones, P. D. (eds.)Climate since A.D. 1500. London: Routledge, pp. 118–142.
Philander, S. G., 1990:El Niño, la Niña and the Southern Oscillation. San Diego: Academic Press, 293 pp.
Reed, R. J., Campell, W. J., Rasmussen, L. A., Rogers, D. G., 1961: Evidence of a down propagating, annual wind reversal in the equatorial stratosphere.J. Geophys Res. 66, 813–818.
Rogers, J. C., van Loon, H., 1979: The seesaw in winter temperature between Greenland and Northern Europe. Part II: Some oceanic and atmospheric effects in middle and high latitudes.Mon. Wea. Rev. 107, 509–519.
Rogers, J. C., 1984: The association between the North Atlantic Oscillation and the Southern Oscillation in the Northern Hemisphere.Mon. Wea. Rev. 112, 1999–2015.
Salvisberg, E., 1997: Wetterlagenklimatologie-Möglichkeiten und Grenzen ihres Beitrages zur Klimawirkungs-forschung im Alpenraum, Ph.D. thesis, Geogr. Inst. Bern, in prep.
Schär, C., Frei, C., Lüthi, D., Davies, H. C., 1996: Surrogate climate-change scenarios for regional climate models.Geophys. Res. Lett., 23, (submitted).
Scherhag, R., 1952:Wetteranalyse under Wetterprognose. Berlin: Springer, 424 pp.
Schmutz, C., 1996: Analyse von Bodenluftdruckfeldern über Europa zwischen 1780 und 1994. M.thesis Geogr. Inst., Bern, 98 pp.
Schönwiese, C.-D., Rapp, J., Fuchs, T., Denhard, M., 1993:Klimatrend-Atlas Europa 1891–1990. Frankfurt: AVF-Verlag, 218 pp.
Schüepp, M., 1968: Kalender der Wetter- und Witterungs-lagen im zentralen Alpengebiet.Veröff. SMA, H.11, 43 pp.
Schüepp, M., 1979: Witterungsklimatologie. Beiheft Annalen d. Sz. Meteorol. Anstalt (Jg. 1978). SMA, Zürich, 93 pp.
Schüepp, M., 1991: The precipitation series of Gr. St. Bernard and Geneva since 1818.Theor. Appl. Climatol. 44, 139–142.
Schwarb, M., 1996: Witterungsanalyse anhand der Alpenwetterstatistik mit Bezug auf Niederschlag (Periode 1945–1994). M.thesis, ETH Zurich, 88 pp.
Sterling, T., 1993: Langzeitdiagnose des Einflusses der tropischen 30–60tägigen Madden-Julian Oszillaton auf die mittleren Breiten der Nordhemisphäre.Mittlg. Inst. Geoph. u. Meteorol. Univ. Köln, H.94, 80 pp.
Stocker, T., 1996: An overview of century time-scale variability in the climate system: observations and models: In: Anderson, D. L. T., Willebrand, J., (eds.)Decadal Climate Variability: Dynamics and Predictability. NATO Series, submitted.
Trenberth, K. E., Hurrell, J. W., 1994: Decadal atmosphereocean-ocean variations in the Pacific.Climate Dyn. 9, 303–319.
Untersteiner, N., 1984: The cryosphere. In: Houghton, J. T. (ed.)The Global Climate. Cambridge: Cambridge Univ. Press, pp. 121–140.
van Loon, H., Rogers, J. C., 1978: The seesaw in winter temperatures between Greenland and Northern Europe. Part I: General description.Mon. Wea. Rev. 106, 296–310.
van Loon, H., Rogers, J. C., 1981: The Southern Oscillation. Pat II: Associations with changes in the middle troposphere in the northern winter.
Veryard, R. G., Ebdon, R. A., 1961: Fluctuations in tropical stratospheric winds.Met. Mag. 90, 125–143.
Walker, G. T., 1924: Correlations in seasonal variations of weather. IX. Mem.Indian Meteor. Dept. 24, 275–332.
Wallace, J. M., Gutzler, D. S., 1981: Teleconnections in the geopotential height field during the Northern Hemisphere winter.Mon. Wea. Rev. 109, 784–812.
Wallace, J. M., Smith, C., Jiang, Q., 1990: Spatial patterns of atmosphere-ocean interaction in the northern winter.J. Climate 3, 990–998.
Wallace, J. M., Zhang, Y., Bajuk, L., 1996: Interpretation of interdecadal trends in Northern Hemisphere surface air temperature.J. Climate 9, 249–259.
Walsh, J. E., Chapman, W. L., 1990: Arctic contribution to upper-ocean variability in the North Atlantic.J. Climate 3, 1467–1473.
Wanner, H., Pfister C., Brázdil, R., Frich, P., Frydendahl, K., Jónsson, T., Kington, J., Lamb, H. H., Rosenørn, S., Wishman, E., 1995a: Wintertime European circulation patterns during the Late Maunder Minimum cooling period (1675–1704).Theor. Appl. Climatol. 51, 159–165.
Wanner, H., Brázdil, R., Frich, P., Frydendahl, K., Jónsson, T., Kington, J., Pfister, C., Rosenørn, S., Wishman, E., 1995b: Synoptic interpretation of monthly weather maps for the Late Maunder Minimum (1675–1704). In: Frenzel, B. (ed.)Climate Trends and Anomalies in Europe. Stuttgart: Fischer, pp. 401–424.
Wanner, H., Salvisberg, E., Rickli, R., Schüepp, M. (in prep): 50 years of Alpine weather statistics (AWS).
Warnecke, G., 1991:Meteorologie und Umwelt. Berlin, Springer, 342 pp.
Weigel, S., 1994: Klimafernkopplungen des Alpenraumes. M.thesis Geogr. Inst. Bern, 138 pp.
Widmann, M., Schär, C., 1996: A principal component and long-term trend analysis of daily precipitation in Switzerland.Theor. Appl. Climatol., (submitted).
WMO (World Meteorological Orginazation), 1986: Scientific results of the Alpine experiment (ALPEX), Vol. I and II. WMO/TD-No. 108, 710 pp.
WMO (World Meteorological Organization), 1995: The global climate system review-climate system monitoring June 1991–November 1993. WMO-No. 819, Geneva, 150 pp.
Woodruff, S. D., Slutz, R. J., Jenne, R. L., Steurer, P. M., 1987: A comprehensive ocean-atmosphere data set.Bull. Amer. Meteor. Soc. 68, 521–527.
Yarnal, B., 1993:Synoptic Climatology in Environmental Analysis. A primer. London: Belhaven Press, 195 pp.
Zorita, E., Kharin, V., Storch, H.v., 1992: The atmospheric circulation and sea surface temperature in the North Atlantic area in winter: their interaction and relevance for Iberian precipitation.J. Climate 5, 1097–1108.
Author information
Authors and Affiliations
Additional information
With 16 Figures
Rights and permissions
About this article
Cite this article
Wanner, H., Rickli, R., Salvisberg, E. et al. Global climate change and variability and its influence on Alpine climate — concepts and observations. Theor Appl Climatol 58, 221–243 (1997). https://doi.org/10.1007/BF00865022
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF00865022