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Snow and Ice Conditions on “Exercise Musk Ox” (Northern Canada)

Published online by Cambridge University Press:  30 January 2017

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Abstract

Type
Research Article
Copyright
Copyright © International Glaciological Society 1947

This exercise, held in northern Canada during the winter 1945–46, was primarily a test of mobility of oversnow vehicles and methods of air supply to a small moving force under conditions varying from Arctic Barren Grounds to spring thaw in the northern woods.

In addition to the purely military aims, some minor problems were investigated, among others data on the snow and ice conditions encountered. Due to the need for steady travel in order to keep closely to a prearranged schedule the time available for such scientific observations was very limited. Daylight halts were short and camp was nearly always made when it was too dark for snow sampling.

The snow testing kit for the exercise was made by the National Research Council of Canada and is fully described in their Technical Memorandum No. 5.Footnote * The main defect in this equipment concems the hardness gauge. On very hard snow, where the smallest disc was used, the results suggested that a single crystal of snow was being pressed. Hardnesses above 10,000 g./cm.2 were measured (op. cit. p. 12).

Ice thickness was measured by chisel-and-scoop holes or by bee-hive (shaped charge) explosives. The former method is that of the Eskimo and takes about 10 minutes per foot to drill. An electric hot rod constructed by the N.R.C. for rapid hole drilling was not carried because the vehicle batteries were not considered adequate for the power which the rod requires.

The route of Exercise Musk Ox led from Churchill, Manitoba, past the Barren Grounds to Victoria Island and then over the sea ice of Coronation Gulf to Coppermine. The latter half of the route, from just beyond Coppermine, was through wooded country.

All the snow measurements were made on settled snow. The surface of the snow-cover in the Barrens generally consisted of a layer of small, rounded, cemented grains. These became progressively larger and more angular (with facets and needles) as the bottom of the snow layer was approached. The rounded grains had been formed by steady drifting, while the lower, more angular grains appeared to have been formed by Sublimation in the snow drift after a surface wind layer had given them protection.

Sastrugi were very common throughout the barren lands where the sweep of the wind is unhindered. Only in areas of willow bush and tall grass was the snow not firmly packed.

In bush country the snow was more loosely packed and lacked the surface layer of rounded grains. The average snow depth here (in April) was usually around 22 in. of settled snow with specific gravity of 0.2 to 0.3. On the Barrens the specific gravity averaged between 0.3 and 0.4. Hardnesses were measured in thousands of grammes per square centimetre. It is an impossible task to measure snow depth in the Barrens. Deep, hard drifts are formed in the lee of eskers and rocky ridges, which remain bare all the winter, while on lakes bare ice occurs alongside sastrugi three feet high.

Many and various ice surfaces were traversed during the exercise. The initial stage of the route was mainly along the ice foot of the shore of Hudson Bay, where the considerable tides cause frequent overflows yielding lengthy Stretches of smooth ice. At river mouths there were air spaces in the ice, which was tide-heaved into a series of smooth undulations.

The lakes in the eastern Arctic were frozen to a depth of six to eight feet. The ice was only partially covered with snow. This snow cover was thinner in the northern part of the route. In the Western Arctic, from Coppermine south, there was a uniform cover of soft snow. The ice of Great Bear Lake, the second largest fresh-water lake in the world that freezes completely, was over 5 ft. thick. The surface was fairly smooth, but was broken by a number of large pressure ridges running out of sight and characterized by open cracks up to 6 ft. wide often masked by drifted snow.

Great Bear River was, and always is, unfrozen where it leaves the lake, but the Mackenzie River at Fort Norman was still solidly covered with 5½ ft. of ice on April 13th. At Simpson, however, the thaw had set in and there was a foot of slush or water above the rotting ice surface. This was characteristic of all the rivers from here south till the Fort Nelson River was reached. Here the last snow had vanished and the river was open and running swiftly.

References

page 75 note * Copies of this report may be obtained from Mr. D. B. Nazzer, Secretary, Associate Committee on Soil and Snow Mechanics, c/o National Research Council, Ottawa, Canada.—Ed.