Hostname: page-component-8448b6f56d-t5pn6 Total loading time: 0 Render date: 2024-04-19T09:35:04.594Z Has data issue: false hasContentIssue false
  • English
  • Français

Twentieth-century variations in temperature and precipitation in the Nordic Arctic

Published online by Cambridge University Press:  27 October 2009

E. J. Førland ,
I. Hanssen-Bauer ,
T. Jónsson ,
C. Kern-Hansen ,
P.Ø. Nordli ,
O. E. Tveito  and
E. Vaarby Laursen
E. J. Førland
Affiliation:
Norwegian Meteorological Institute, Box 43, Blindern, 0313 Oslo, Norway
I. Hanssen-Bauer
Affiliation:
Norwegian Meteorological Institute, Box 43, Blindern, 0313 Oslo, Norway
T. Jónsson
Affiliation:
Icelandic Meteorological Office, Bustadavegur 9 IS-150 Reykjavik, Iceland
C. Kern-Hansen
Affiliation:
Denmarks Meteorological Institute, Lyngbyvej 100, DK-2100 Copenhagen, Denmark
P.Ø. Nordli
Affiliation:
Norwegian Meteorological Institute, Box 43, Blindern, 0313 Oslo, Norway
O. E. Tveito
Affiliation:
Norwegian Meteorological Institute, Box 43, Blindern, 0313 Oslo, Norway
E. Vaarby Laursen
Affiliation:
Denmarks Meteorological Institute, Lyngbyvej 100, DK-2100 Copenhagen, Denmark
Get access Rights & Permissions [Opens in a new window]

Abstract

In a joint Nordic effort, a high-quality climate data set for the Nordic Arctic is established. The data set consists of monthly values from 20 stations in Greenland, Iceland, the Faeroes, and the Norwegian Arctic. The data set is made available on the web. Ten climate elements are included, and most of the series covers the period 1890–2000. The data series illustrate the large climatic contrasts in the Nordic Arctic, and demonstrate that parts of the region have experienced substantial climate variations during the last century. Despite increasing temperatures during recent decades, the present temperature level is still lower than in the 1930s and 1950s in large parts of the region. The pattern of long-term precipitation variations is more complicated, but in parts of the region the annual precipitation has increased substantially. At Svalbard Airport and Bjørnøya the annual precipitation has increased by more than 2.5% per decade during the twentieth century.

Variations in atmospheric circulation can account for most of the long-term positive trend in precipitation in the Norwegian Arctic, and also for the positive temperature trend from the 1960s. The positive temperature trend before 1930 and the negative trend during the following decades, are, however, not accounted for by the circulation models.

Type
Articles
Information
Polar Record , Volume 38 , Issue 206 , July 2002 , pp. 203 - 210
Copyright
Copyright © Cambridge University Press 2002

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Alexandersson, H. 1986. A homogeneity test applied to precipitation data. Journal of Climate 6: 661675.CrossRefGoogle Scholar
Alexandersson, H., and Moberg, A.. 1997. Homogenization of Swedish temperature data. Part I: A homogeneity test for lineartrends. International Journal of Climatology 17: 2534.3.0.CO;2-J>CrossRefGoogle Scholar
Dickson, B. 1999. All change in the Arctic. Nature 397: 389391.CrossRefGoogle ScholarPubMed
Folland, C., and Karl, T. R.. 2001. Observed climate variability and change. In: Houghton, J. T., Ding, Y., Griggs, D. J., Nouger, M., van der Linden, P. J., Dai, X., Maskell, K., Johnson, C. A. (editors). Climate change 2001: the scientific basis. Contribution of Working Group I to the third assessment report of IPCC. Cambridge: Cambridge University Press; www.ipcc.ch.Google Scholar
Frich, P., Alexandersson, H., Ashcroft, J., Dahlström, B., Demarée, G. R., Drebs, A., van Engelen, A. F. V., Førland, E. J., Hanssen-Bauer, I., Heino, R., Jónsson, T., Jonasson, K., Keegan, L., Nordli, P.Ø., Schmidt, T., Steffensen, P., Tuomenvirta, H., and Tveito, O. E.. 1996. North Atlantic climatological dataset (NACD version 1): final report. Copenhagen: Danish Meteorological Institute (Scientific report 96–1): 47.Google Scholar
Fu, C., Diaz, H. F., Dong, D., and Fletcher, O.. 1999. Changes inatmospheric circulation over the Northern Hemisphere oceans associated with the rapid warming of the 1920s. International Journal of Climatology 19: 581606.3.0.CO;2-P>CrossRefGoogle Scholar
Førland, E. J., Allerup, P., Dahlström, B., Elomaa, E., Jónsson, T., Madsen, H., Perälä, J., Rissanen, P., Vedin, H., and Vejen, F.. 1996. Manual for operational correction of Nordic precipitation data. Oslo: Norwegian Meteorological Institute (DNMI-KLIMA report 24/96).Google Scholar
Førland, E.J., and Hanssen-Bauer, I.. 2000. Increased precipitation in the Norwegian Arctic: true or false. Climatic Change 46: 485509.CrossRefGoogle Scholar
Førland, E. J., Hanssen-Bauer, I., and Nordli, P. O.. 1997. Climate statistics and long-term series of temperature and precipitation at Svalbard and Jan Mayen. Oslo: Norwegian Meteorological Institute (DNMI-KLIMA report 21/97).Google Scholar
Goodison, B. E., Louie, P. Y. T., and Yang, D.. 1998. WMO solid precipitation measurement intercomparison. Geneva: WMO (WMO/TD no 872).Google Scholar
Hanssen-Bauer, I. 2002. Temperature and precipitation in Svalbard 1912–2050: measurements and scenarios. Polar Record 38 (206): 225232.CrossRefGoogle Scholar
Hanssen-Bauer, I., and Førland, E. J.. 1994. Homogenizing long Norwegian precipitation series. Journal of Climate 7: 10011013.2.0.CO;2>CrossRefGoogle Scholar
Hanssen-Bauer, I., and Førland, E.J.. 1998. Long-term trends in precipitation and temperature in the Norwegian Arctic: can they be explained by changes in the atmospheric circulation patterns. Climate Research 10: 143153.CrossRefGoogle Scholar
Hulme, M. 1995. Estimating global changes in precipitation. weather 50 (2): 3442.CrossRefGoogle Scholar
Hurrell, J. W. 1996. Influence of variations in extratropical wintertime teleconnections on Northern Hemisphere temperature. Geophysical Research Letters 23: 665668.CrossRefGoogle Scholar
International Panel on Climate Change. 2001. Climate change 2001: the scientific basis. Contribution of Working Group I to the Third assessment report of IPCC. Available at www.ipcc.ch.Google Scholar
Kattenberg, A., Gruza, G. V., Jouzel, J., Karl, T. R., Ogallo, L. A., and Parker, D. E.. 1996. Observed climate variability and change. In: Houghton, J. T., Filho, L. G. Meira, Callander, B. A., Harris, N., Kattenberg, A., and Maskell, K. (editors). Climate change 1995: the science of climate change. Cambridge: Cambridge University Press: 289357.Google Scholar
Monahan, A. H., Fyfe, J. C., and Flato, G. M.. 2000. A regime view of Northern Hemisphere atmospheric variability and change under global warming. Geophysical Research Letters 27: 11391142.CrossRefGoogle Scholar
Nordli, P.Ø., Alexandersson, H., Frich, P., Førland, E. J., Heino, R., Jónsson, T., Tuomenvirta, H., and Tveito, O. E.. 1997. The effect of radiation screens on Nordic time series of mean temperature. International Journal of Climatology 17: 16671681.3.0.CO;2-D>CrossRefGoogle Scholar
Nordli, P.Ø., Hanssen-Bauer, I., and Førland, E. J.. 1996. Homogeneity analyses of temperature and precipitation series from Svalbard and Jan Mayen. Oslo: Norwegian Meteorological Institute (DNMI-KLIMA report 16/96).Google Scholar
Parker, D. E., and Horton, E. B.. 1999. Global and regional climate in 1998. Weather 54 (6): 173184.CrossRefGoogle Scholar
Peterson, T. C., Easterling, D. R., Karl, T. R., Groisman, P., Nicholls, N., Plummer, N., Torok, S., Auer, I., Boehm, R., Gullett, D., Heino, R., Tuomenvirta, H., Mestre, O., Szentimrey, T., Salinger, J., Førland, E. J., Hanssen-Bauer, I., Alexandersson, H., Jones, P., and Parker, D.. 1998. Homogeneity adjustments of in-situ atmospheric climate data: a review. International Journal of Climatology 18: 14931517.3.0.CO;2-T>CrossRefGoogle Scholar
Serreze, M. C., Walsh, J. E., Chapin, F. S. III, Osterkamp, T., Dyurgerov, M., Romanovsky, V., Oechel, W. C., Morison, J., Zhang, T., and Barry, R. G.. 2000. Observational evidence of recent change in the northern high-latitude environment. Climatic Change 45: 159207.CrossRefGoogle Scholar
Thomson, D. W. J., and Wallace, J. M.. 1998. The Arctic oscillation signature in the wintertime geopotential height and temperature fields. Geophysical Research Letters 25 (9): 12971300.CrossRefGoogle Scholar
Tuomenvirta, H. 2001. Homogeneity adjustments of temperature and precipitation series: Finnish and Nordic data. International Journal of Climatology 21: 495506.CrossRefGoogle Scholar
Tuomenvirta, H., Alexandersson, H., Drebs, A., Frich, P., and Nordli, P.Ø.. 2000. Trends in Nordic and Arctic temperature extremes and ranges. Journal of Climate 13: 977990.2.0.CO;2>CrossRefGoogle Scholar
Tuomenvirta, H., Drebs, A., Førland, E., Tveito, O.E., Alexandersson, H., Vaarby-Laursen, E., and Jonsson, T.. 2001. Nordklim data set 1.0 – descriptions and illustrations. Oslo: Norwegian Meteorological Institute (DNMI-KLIMA report 08/01).Google Scholar
Walsh, J. E., Chapman, W. L., and Shy, T. L.. 1996. Recent decrease of sea level pressure in the central Arctic. Journal of Climate 9: 480486.2.0.CO;2>CrossRefGoogle Scholar
Walsh, J. E., Kattsov, V., Portis, D., and Meleshko, V.. 1998. Arctic precipitation and evaporation: model results and observational estimates. Journal of Climate 11: 7287.2.0.CO;2>CrossRefGoogle Scholar