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Gosling Cone description and information


Official Name: Gosling Cone
Most Recent Activity:
Seismically Monitored: No
Elevation: 1572 ft (479 m)
Latitude: 65.47375° N
Longitude:163.24741° W
CAVW Number:
Associated Features:Twin Calderas
Rhododendron Cone
Nearby towns:Council 42 mi (68 km) SW
Deering 44 mi (71 km) NE
White Mountain 55 mi (88 km) SW
Mary's Igloo 57 mi (91 km) SW
Anchorage 506 mi (814 km) SE
From Hopkins (1963) [1]: “The name "Gosling volcanics" is proposed for a group of basaltic and andesitic lava flows and endogenous domes that overlie the silt mantle on the Imuruk volcanics and that are overlain locally by the Camille and Lost Jim lava flows. The originally smooth surfaces of pahoehoe flows of the Gosling volcanics have been brecciated by frost riving to depths of at least 10 feet in most places, and the flows now consist of higher areas of openwork rubble interspersed with low-lying areas of rubble mixed with silt. Progressively younger flows have progressively larger proportions of areas underlain by openwork rubble and progressively smaller areas underlain by rubble mixed with silt. The formation is named for Gosling Cone, located at the source vent of a typical lava flow of the Gosling volcanics (pl. 1 in original text).”

“The Twin Calderas indent the summit of a broad lava dome at the site of a relatively long-lived vent. The dome stands 400 feet above lowlands to the south, west, and northeast. The two collapse calderas are 1,700 and 2,500 feet in diameter and 50 and 120 feet deep. Flat-floored sector grabens extend north from the northeast caldera and south from the southwest caldera (fig. 11 in original text). The caldera walls lie at the angle of repose for coarse rubble, and little solid bedrock can be seen. Exposures in the southwest caldera show, however, that the walls transect the smooth-surfaced pahoehoe-lava flow forming the surface of the lava dome. Near the top of the wall, the lava flow is composed of flow units 0.2 to 0.5 foot thick separated by thin zones of agglomerate. At greater depth the wall exposes flow units 2 to 6 feet thick.”

Geology of the Imuruk Lake area, Seward Peninsula, Alaska, 1963
citation imageHopkins, D. M., 1963, Geology of the Imuruk Lake area, Seward Peninsula, Alaska: U.S. Geological Survey Bulletin 1141-C, 101 p., 2 sheets, scale 1:250,000.
Download PDF full-text PDF : 3.3 MB
Download PDF plate 1 PDF : 25 MB
Download PDF plate 4 PDF : 316 KB

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