ARCTIC The Residual Snow Cover in the Canadian Arctic in July: A Means to Evaluate the Regional Maximum Snow Depth in Winter

ABSTRACT. This paper examines the residual snow cover in the Canadian Arctic during the month of July in the period 1948-83 inclusive using air photographs. The study area includes the Ungava Peninsula, part of the District of Keewatin and the Arctic Archipelago, except for the mountainous regions t...

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Bibliographic Details
Main Authors: Bernard Lauriol, Yvan Carrier, Hector Beaudet, Gilles Binda
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Published: 1986
Subjects:
Key words
snow patches
Canadian arctic climate
snowfalls
snow depth
Arctic
Baffin Bay
Canada
Hudson
Hudson Strait
Ungava Peninsula
Arctic Archipelago
Baffin
glacier*
Keewatin
Labrador Sea
Ungava peninsula
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.577.1253
http://pubs.aina.ucalgary.ca/arctic/Arctic39-4-309.pdf
Description
Summary:ABSTRACT. This paper examines the residual snow cover in the Canadian Arctic during the month of July in the period 1948-83 inclusive using air photographs. The study area includes the Ungava Peninsula, part of the District of Keewatin and the Arctic Archipelago, except for the mountainous regions to the west of the Labrador Sea, and Baffin Bay, where numerous snow fields and glaciers are present. In spite of the spatial discontinuity of the air photographs taken during the second half of July, the authors were able to study 555 519 km’, or 46%, of the forementioned temtory. Within this territory, 1899 km2 are covered by residual snow during summer, or an average of 3336 m’.km-2. A correlation of r = 0.93 was observed between the residual snow cover in the different regions during the second half of July and the maximum snow cover thickness during winter measured by Environment Canada. A model permitting the estimation of the maximum snow cover thickness in regions where meteorological stations do not exist was formulated. The model is applicable at small and medium scales. In addition, the authors propose that the Hudson Strait region is the most susceptible to the formation of glaciers if one hypothesizes that the regions with the thickest residual snow cover are the most susceptible to glaciation.

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