Close to the Edge (cave)


Close to the Edge is a significant cave in the Dezaiko Range of the Rocky Mountains in Canada. It is within Close To The Edge Provincial Park and Protected Area about 160 km east of Prince George, British Columbia.

Cave setting and form

The 20m wide entrance to Close to the Edge is located in a cliff near the summit of an unnamed mountain, but is hidden by a natural rampart and thus only visible from the air. The entrance shaft is 255 m deep, by far the deepest in Canada, and often sports a 20-metre-long overhanging icicle. This is followed by shafts of 32 m, 17 m, 7 m, 10 m, 10 m, 8 m, 9 m, 68 m, and 9 m, ending at a sump. The surveyed length of all passages only totals 967 metres, while its overall depth of 472 metres makes it the fourth-deepest cave in Canada. It is believed that the sump water reappears at Twin Falls Resurgence some 600 m below the entrance.

Exploration

The first recorded entrance sighting was in 1985 by cavers in a helicopter supporting a nearby expedition. The following year the cave was explored to a frozen mud and stone blockage at the base of the second pitch at a depth of 263 meters. The blockage was removed in 1994 by a team led by the team of Neeld Messler, Jim Hewett and Stephen Alvarez. A final exploration in 2001 by a team led by Canadians John Donovan, Jason Morgan, Dan Patch and Australian Warwick M Green pushed the cave from the blockage and discovered the sump at -472 m. This team surveyed and mapped the cave and published their findings with the assistance of Dr Chas Young of the University of Calgary.

Name

The cave is named for its remarkable cliffside location; a caver standing on the entrance rampart can look down the 255-metre entrance shaft on one side and down some 700 metres to the valley floor on the other. This topographic oddity is also reminiscent of the artwork on the 1972 record album Close to the Edge by the band Yes, which featured lakes improbably perched on mountain summits. Local cavers also felt close to the edge of their abilities while exploring the unprecedented deep shaft.