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Atmospheric Circulation and Variations in Scandinavian Glacier Mass Balance

Published online by Cambridge University Press:  20 January 2017

Veijo Allan Pohjola  and
Jeffrey C. Rogers
Veijo Allan Pohjola
Affiliation:
Byrd Polar Research Center, The Ohio State University, Columbus, Ohio, 43210-1002
Jeffrey C. Rogers
Affiliation:
Department of Geography, The Ohio State University, Columbus, Ohio, 43210-1361
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Abstract

Mountain glaciers in Scandinavia are currently advancing while most of the monitored mountain glaciers of the world are retreating. We examine atmospheric circulation variability and compare changes in air pressure indices to changes in the mass balance of glaciers in the northeastern part of the Atlantic Ocean. The glacier mass balance correlates well with the strength of maritime flow in both winter and summer, the presence of high pressure over the Barents Sea being a critical factor in summer. The advance of Scandinavian glaciers is due partly to persistently strong westerlies over the northeastern Atlantic during post-1980 winters and partly to cold summertime flow, which together have helped maintain positive glacier net balance by decreasing ablation since 1980.

Type
Research Article
Information
Quaternary Research , Volume 47 , Issue 1 , January 1997 , pp. 29 - 36
Copyright
University of Washington

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References

Ahlmann, H. W.(1927). Physico-geographical researches in the Horung Massif, Jotunheim. Geografiska Annaler 9, 97113.Google Scholar
Ahlmann, H. W:son.(1951). Scientific investigations in the Kebnekajse massif, Swedish Lapland. I. General outline of the investigations in 1946–51. Geografiska Annaler 33, 9094.Google Scholar
Chinn, T. J. H.(1995). Glacier fluctuations in the Southern Alps of New Zealand determined from snowline elevations. Arctic and Alpine Research 21, 187198.Google Scholar
Clarke, G. K. C.(1987). A short history of scientific investigations on glaciers. Journal of GlaciologySpecial Issue, 424.Google Scholar
D'Arrigo, R. D, Cook, E. R. Jacoby, G. C.andBriffa, K. R.(1993). NAO and sea surface temperature signatures in tree-ring records from the North Atlantic sector. Quaternary Science Reviews 12, 431440.CrossRefGoogle Scholar
Dyugerov, M. B.(1990). Mass balance of mountain glaciers and the Earth's climate. Polar Geography and Geology 14, 188216.Google Scholar
Enquist, F.(1916). “Der Einfluss des Windes auf die Verteilung der Gletscher.” Almqvist & Wiksell, Uppsala.Google Scholar
Fitzharris, B. B. Hay, J. E.andJones, P. D.(1992). Behaviour of New Zealand glaciers and atmospheric circulation changes over the past 130 years. The Holocene 2, 97106.Google Scholar
Folland, C. K. Karl, T. R.andVinnikov, K. Ya.(1990). Observed climate variations and change. In “Climate Change"The IPCC Scientific Assessment” ( Houghton, J. T. Jenkins,, G. J.and Ephraums, J. J.Eds.), pp. 195238. Cambridge Univ. Press, Cambridge, UK.Google Scholar
Grudd, H.Ed.(1992). “Annual Report from Tarfala Research Station, 1991.” Research Report 92, Department of Physical Geography, Stockholm University.Google Scholar
Haakensen, N.Ed.(1995). “Glasiologiske unders"kelser i Norge 1992 og 1993.” NVE publikasjon 8.Google Scholar
Hagen, J. O. Liest"l, O. Roland, E.andJ"rgensen, T.(1993). “Glacier Atlas of Svalbard and Jan Mayen.” Norsk Polarinstitutt Meddelser, Vol. 129.Google Scholar
Hock, R.andHolmgren, B. (in press). Some aspects of energy balance and ablation of Storglaci"ren, northern Sweden. Geografiska Annaler.Google Scholar
Holmlund, P.(1987). Mass balance of Storglaci"ren during the 20th century. Geografiska Annaler 69A, 430447.Google Scholar
Holmlund, P.andFuenzalida, H.(1995). Anomalous glacier responses to 20th century climatic changes in Darwin Cordillers, southern Chile. Journal of Glaciology 41, 465473.Google Scholar
Hurrell, J. W.(1995). Decadal trends in the North Atlantic Oscillation regional temperatures and precipitation. Science 269, 676679.Google Scholar
Jansson, P.Ed.(1995). “Annual Report from Tarfala Research Station, 1993–94.” Research Report 102, Department of Physical Geography, Stockholm University.Google Scholar
Letr"guilly, A.(1988). Relation between the mass balance of western Canadian mountain glaciers and meteorological data. Journal of Glaciology 34, 1118.Google Scholar
Lindeman, M.andOerlemans, J.(1987). Northern hemisphere ice sheets and planetary waves: A strong feedback mechanism. Journal of Climatology 7, 109117.Google Scholar
McCabe, G. J. Jr.andFountain, A. G.(1995). Relations between atmospheric circulation and mass balance of South Cascade Glacier, Washington U.S.A. Arctic and Alpine Research 27, 226233.Google Scholar
"strem, G.andBrugman, M. M.(1991). “Glacier-Mass Balance Measurements. A Manual for Field Work. A Guide for Personnel with Limited Backgrounds in Glaciology," 3rd ed. Environment Canada, National Hydrology Research Institute, Saskatoon.Google Scholar
Rogers, J. C.(1984). The association between the North Atlantic oscillation and the Southern oscillation in the Northern Hemisphere. Monthly Weather Review 112, 19992015.Google Scholar
Rogers, J. C.andMosley-Thompson, E.(1995). Atlantic Arctic cyclones and the mild Siberian winters of the 1980s. Geophysical Research Letters 22, 799802.CrossRefGoogle Scholar
Schytt, V.(1959). The glaciers of the Kebnekajse massif. Geografiska Annaler 41, 213227.Google Scholar
Schytt, V.(1981). The net mass balance of Storglaci"ren, Kebnekaise, Sweden, related to the height of the equilibrium line and to the height of the 500 mb surface. Geografiska Annaler 63A, 219223.Google Scholar
Taylor-Alt, B.(1987). Developing synoptic analogs for extreme mass balance conditions on Queen Elizabeth Island ice caps. Journal of Climate and Applied Meteorology 26, 16051623.Google Scholar
van Loon, H.andRogers, J. C.(1978). The seesaw in winter temperatures between Greenland and northern Europe. I. General description. Monthly Weather Review 106, 296310.Google Scholar
Voloshina, A. P.(1988). Some results of glacier mass balance research on the glaciers of the polar Urals. Polar Geography and Geology 12, 200211.Google Scholar
Walters, R. A.andMeier, M. F.(1989). Variability of glaciers mass balances in western north America. Geophysical Monograph 55, pp. 365374. American Geophysical Union.Google Scholar
World Glacier Monitoring Service.(1994). Glacier Mass Balance Bulletin 3.Google Scholar
Yarnal, B.(1984). Relationships between synoptic-scale atmospheric circulation and glacier mass balance in south-western Canada during the international decade, 1965–74. Journal of Glaciology 30, 188198.CrossRefGoogle Scholar