Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-25T07:18:08.107Z Has data issue: false hasContentIssue false

Advance of Walsh Glacier

Published online by Cambridge University Press:  30 January 2017

Russell A. Paige*
Affiliation:
Naval Civil Engineering Laboratory, Port Hueneme, California, U.S.A.
Rights & Permissions [Opens in a new window]

Abstract

Type
Correspondence
Copyright
Copyright © International Glaciological Society 1965

Sir,

In May of 1952 the writer walked eastward up the north side of Logan Glacier (St. Elias Range, Yukon Territory), crossed Walsh Glacier and continued up Logan Glacier en route to King Peak. Only about 6 hr. were required to cross the 1 .5 miles (2.4 km.) of stagnant ice of the Walsh Glacier terminus where it adjoins Logan Glacier.

In August 1964 he traveled down Logan Glacier and attempted to cross Walsh Glacier at the same place as in 1952. More than 10 hr. of extremely difficult walking was required to detour at least 3 miles (4.8 km.) farther down Logan Glacier because of impassable seracs and crevasses caused by a recent spectacular advance of Walsh Glacier.

Location. Walsh Glacier is located in the St. Elias Range between long. 140° 15′ and 141° 15′ W. and at lat. 60° 55′ N. near the Alaska-Yukon border (Fig. 1). Walsh Glacier is about 35 miles (56 km.) long and flows from east to west to its confluence with Logan Glacier in Alaska. The total area occupied by Walsh Glacier is about 160 sq. miles (415 km.2). The accumulation zone is complex and consists of many small “feeder” glaciers with a total area not exceeding 70 sq. miles (180 km.2). Most of the small tributary glaciers of the accumulation zone are north of the main ice stream, which flows slightly north of due west in almost a straight line for more than 30 miles (48 km.).

Fig. 1. Index map of Alaska and Canada showing the location of the Walsh Glacier area

In 1952 the terminus of Walsh Glacier was stagnant and consisted of hills and pinnacles of ice covered with 2−4 ft. (0. 6−1.2 m.) of moraine. Numerous melt-water lakes and streams also indicated a stagnant condition. The average elevation of the glacier surface was much lower than that of Logan Glacier. Vegetation, consisting mostly of willow and small flowering plants, had started to grow on large areas of stabilized moraine.

Studies of air photographs taken in 1951 show that upper Walsh Glacier had many well-developed medial moraine ridges consisting of a thick cover of rock debris on ice. The lateral moraine area of the north side of the glacier was quite wide and contained many melt-water lakes. Debris-free ice lanes between the medial moraines were relatively smooth and became more extensive farther up-glacier.

In 1964 the terminal area of Walsh Glacier had become a tremendous maze of chaotic seracs and crevasses with an average surface elevation at least 150 ft. (45.7 m.) higher than the pre-advance surface. The terminus of Walsh Glacier has pushed out and has over-ridden Logan Glacier for at least 2 miles (3.2 km.) beyond its former position (Fig. 2).

Fig. 2. Sketch map of Walsh Glacier showing position of the terminus in 1952 and 1964

Upper Walsh Glacier is now intensely broken and much of the former thick moraine has become incorporated in the jumble of seracs and crevasses. Lanes of smooth ice, melt-water lakes and streams, and other features typical of a near-stagnant condition have all been destroyed by advancing ice.

The time at which Walsh Glacier began its advance is, unfortunately, unknown. The advance is obviously recent and the ice is still probably moving at an unusually high rate. It seems possible that the advance is related to the earthquake of 27 March 1964. Other glaciers in this area have recently been reported as showing signs of unusual movement (Reference PostPost, 1964). The bush pilot at Chitina, Alaska, first noticed the advance in July 1964 (personal communication from Howard Knutson). It is hoped that additional studies of recent photographs may provide more definite information on the rate and time of origin of the unusual advance of Walsh Glacier.

3 February 1965

References

Post, A. S. 1964. Aerial photography in 1963. Ice. News Bulletin of the Glaciological Society, No. 15, p. 1415.Google Scholar
Figure 0

Fig. 1. Index map of Alaska and Canada showing the location of the Walsh Glacier area

Figure 1

Fig. 2. Sketch map of Walsh Glacier showing position of the terminus in 1952 and 1964