Devon Island Ice Cap: Core Stratigraphy and Paleoclimate

doi:10.1126/science.196.4285.15

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Science 1 April 1977:
Vol. 196. no. 4285, pp. 15 - 18
DOI: 10.1126/science.196.4285.15

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Devon Island Ice Cap: Core Stratigraphy and Paleoclimate

R. M. Koerner ¹

¹ Research scientist with the Polar Continental Shelf Project of the Department of Energy, Mines and Resources, Ottawa, Ontario K1A 0E4 Canada

Valuable paleoclimatic information can be gained by studyingthe distribution of melt layers in deep ice cores. A profilerepresenting the percentage of ice in melt layers in a coredrilled from the Devon Island ice cap plotted against both timeand depth shows that the ice cap has experienced a period ofvery warm summers since 1925, following a period of colder summersbetween about 1600 and 1925. The earlier period was coldestbetween 1680 and 1730. There is a high correlation between themelt-layer ice percentage and the mass balance of the ice cap.The relation between them suggests that the ice cap mass balancewas zero (accumulation equaled ablation) during the colder periodbut is negative in the present warmer one. There is no firmevidence of a present cooling trend in the summer conditionson the ice cap. A comparison with the melt-layer ice percentagein cores from the other major Canadian Arctic ice caps showsthat the variation of summer conditions found for the DevonIsland ice cap is representative for all the large ice capsfor about 90 percent of the time. There is also a good correlationbetween melt-layer percentage and summer sea-ice conditionsin the archipelago. This suggests that the search for the northwestpassage was influenced by changing climate, with the 19th-centurypeak of the often tragic exploration coinciding with a periodof very cold summers.

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