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Ice Peak
Ice Volcano
Satellite image showing the locations of Ice Peak, Mount Edziza and the Snowshoe Lava Field
Highest point
Elevation	2,500 m (8,200 ft)
Coordinates	57°41′26″N 130°38′08″W / 57.69056°N 130.63556°W / 57.69056; -130.63556
Naming
Defining authority	BC Geographical Names office in Victoria, British Columbia
Geography
Ice PeakLocation in British Columbia
Location in Mount Edziza Provincial Park
Country	Canada
Province	British Columbia
District	Cassiar Land District
Protected area	Mount Edziza Provincial Park
Topo map	NTS 104G10 Mount Edziza
Geology
Formed by	Volcanism and erosion
Rock age	c. 1 Ma to less than 20 ka
Mountain type	Pyramidal peak/stratovolcano
Rock type(s)	Hawaiite, tristanite, trachybasalt, alkali basalt, benmoreite, trachyte, mugearite
Volcanic region	Northern Cordilleran Province
Last eruption	Holocene age

Ice Peak is the prominent south peak of Mount Edziza in Cassiar Land District of northwestern British Columbia, Canada. It has an elevation of 2,500 metres (8,200 feet) and protrudes through Mount Edziza's ice cap, which is roughly 70 square kilometres (27 square miles) in area. The peak is a pyramid-shaped horn formed by glacial erosion and is completely flanked by steep-walled, active cirques. Tencho Glacier on the southern flank is the largest outlet glacier of Mount Edziza's ice cap. The summit of Ice Peak is about 280 metres (920 feet) lower than that of Mount Edziza, but it still rises well above the general level of the Big Raven Plateau. Ice Peak and the surrounding area are in Mount Edziza Provincial Park, which also includes the Spectrum Range to the south.

Ice Peak is the remains of an approximately 1-million-year-old stratovolcano whose original eastern flank has been almost completely destroyed by erosion. Four cirques on the eroded eastern flank have exposed the internal structure of the stratovolcano whereas the southern and western flanks are approximal to those of the original volcano. The northern flank is buried under the younger and higher stratovolcano of Mount Edziza. On the southwestern flank is the Snowshoe Lava Field, which issued from at least 12 vents mostly near the terminus of outlet glaciers in the last 20,000 years. A diverse assemblage of volcanic rocks comprises the Ice Peak stratovolcano and are subdivided into three geological formations with varying ages.

Geography and geomorphology

Structure

Ice Peak is the prominent south peak of Mount Edziza, an ice-covered stratovolcano in Cassiar Land District of northwestern British Columbia, Canada. It is a pyramid-shaped horn formed by glacial erosion and represents the western rim of a small caldera which formed on the summit of an older stratovolcano. This stratovolcano is one of four felsic central volcanoes along the north–south axis of the Mount Edziza volcanic complex, the other three being Armadillo Peak, the Spectrum Range and the 2,786-metre-high (9,140-foot) edifice of Mount Edziza. The current, 2,500-metre-high (8,200-foot) horn of Ice Peak protrudes through the roughly 70-square-kilometre (27-square-mile) ice cap of Mount Edziza and is completely flanked by steep-walled, active cirques. Tencho Glacier on the southern flank of Ice Peak is the largest outlet glacier of the ice cap, as well as the largest glacier of the Mount Edziza volcanic complex. Idiji Glacier occupies a cirque on the eastern flank of Ice Peak whereas Tennaya Glacier extends southeast from between Ice Peak and the summit of Mount Edziza.

Four cirques on the eastern flank have exposed the internal structure of the Ice Peak stratovolcano whereas the western flank is completely mantled by glaciers. The eastern cirques are at the head of Tennaya Creek which flows northeast into Nuttlude Lake, an expansion of Kakiddi Creek. Between Tennaya, Nido and Tenchen creeks are pie-shaped, gently sloping interfluves which represent the remains of the original eastern flank of the Ice Peak stratovolcano. Although the original eastern flank has been almost completely destroyed by erosion, the northern flank is buried under the younger stratovolcano of Mount Edziza. The southern and western flanks of the Ice Peak stratovolcano are approximal to those of the original volcano and merge with the Big Raven Plateau which is one of the main physiographic features of the Mount Edziza volcanic complex.

Subfeatures

On the southwestern flank of Ice Peak is a roughly 40-square-kilometre (15-square-mile) area of lava flows and at least 12 vents called the Snowshoe Lava Field. Most of the vents in this lava field are at elevations above 1,800 metres (5,900 feet) near the terminus of outlet glaciers of the Mount Edziza ice cap, five of which named. The highest of these vents, Tennena Cone, attains an elevation of 2,390 metres (7,840 feet) on the upper western flank of Ice Peak. Cocoa Crater to the southwest has an elevation of 2,117 metres (6,946 feet), making it the second highest of the five named vents. The third highest vent, Coffee Crater, is 2,000 metres (6,600 feet) in elevation and lies northwest of Cocoa Crater. South of Coffee Crater on the south side of upper Taweh Creek is Keda Cone, the fourth highest vent with an elevation of 1,980 metres (6,500 feet). Between the heads of Taweh and Shaman creeks is The Saucer which, with an elevation of 1,920 metres (6,300 feet), is the lowest named vent in the Snowshoe Lava Field.

Icefall Cone and Ridge Cone are two parasitic cones on the eastern rim of Ice Peak at an elevation of about 2,285 metres (7,497 feet). Both cones are younger than the main edifice of Ice Peak, but they have been greatly modified by glaciation, slumping and rockfalls due to their location near the steep headwalls of active cirques. Punch Cone on the western flank of Ice Peak is a roughly 1-kilometre-long (0.62-mile), steep-sided ridge protruding through Mount Edziza's ice cap. It is elliptical in structure and older than the Icefall and Ridge cones, although it is also younger than the main edifice of Ice Peak. Also on the western flank of Ice Peak where it merges with the surrounding Big Raven Plateau are the Koosick and Ornostay bluffs, which lie adjacent to the head of Sezill Creek. The Neck is a circular, 300-metre-in diameter (980-foot) volcanic plug on the southeastern flank with an elevation of 1,830 metres (6,000 feet).

Geology

Background

Ice Peak is part of the Northern Cordilleran Volcanic Province, a broad area of shield volcanoes, lava domes, cinder cones and stratovolcanoes extending from northwestern British Columbia northwards through Yukon into easternmost Alaska. The dominant rocks comprising these volcanoes are alkali basalts and hawaiites, but nephelinite, basanite and peralkaline phonolite, trachyte and comendite are locally abundant. These rocks were deposited by volcanic eruptions from 20 million years ago to as recently as a few hundred years ago. The cause of volcanic activity in the Northern Cordilleran Volcanic Province is thought to be due to rifting of the North American Cordillera driven by changes in relative plate motion between the North American and Pacific plates.

Stratigraphy

Ice Peak is subdivided into at least three geological formations, each the product of a distinct stage of volcanic activity. These periods of volcanic activity occurred during three magmatic cycles of the Mount Edziza volcanic complex; each cycle began with the effusion of alkali basalt and culminated with the eruption of lesser volumes of felsic magma. The oldest geological formation is the Ice Peak Formation, which formed during a period of volcanic activity about 1 million years ago during the third magmatic cycle. Another period of volcanic activity 0.3 million years ago deposited the Kakiddi Formation on the southwestern and eastern parts of the Ice Peak pile during the fourth magmatic cycle. The third oldest geological formation is the Big Raven Formation, which was deposited on the Ice Peak and Kakiddi formations during the fifth magmatic cycle in the last 20,000 years.

Ice Peak Formation

The Ice Peak Formation consists of lava and pyroclastic rocks that were erupted mainly from vents near the summit of the Ice Peak stratovolcano. Two stratigraphic units comprise this once symmetrical stratovolcano, both of which are lithologically distinct. The lower stratigraphic unit, which forms much of the volcanic pile, is an assemblage of mostly thin basalt flows. Lavas of intermediate composition such as tristanite, trachybasalt and mugearite are very limited in extent. The upper stratigraphic unit is a highly varied succession of lavas and pyroclastic rocks forming the high, central edifice of Ice Peak. It consists of basalt, trachyte and a variety of intermediate rocks such as tristanite, trachybasalt, benmoreite and mugearite.

The Ice Peak Formation includes the Koosick and Ornostay bluffs, both of which are thick lobes of trachyte that originated under the summit ice cap. Both bluffs are similar in geomorphology and composition, consisting of several lava flows up to 75 metres (246 feet) thick. The Neck, which forms a prominent 215-metre-high (705-foot) buttress on Sorcery Ridge, is also part of the Ice Peak Formation. Potassium–argon dating of Ice Peak Formation pantelleritic trachyte has yielded ages of 1.6 ± 0.2 million years, 1.5 ± 0.4 million years and 1.5 ± 0.1 million years. These dates being older than those of the underlying Pyramid Formation may be due to excess argon in the Ice Peak Formation and are therefore considered unreliable.

Ice Peak Formation basalt flows on the northwestern flank of Mount Edziza are interbedded with diamictites recording a regional glaciation that occurred during the Early Pleistocene. The lowermost basalt flow contains basal pillows, directly overlies hyaloclastites and is brecciated and deformed, suggesting it may have been extruded onto a glacier or an ice sheet. Its extrusion onto glacial ice is also evident due to the lack of fluvial and lacustrine sediments at the base of the basalt flow which suggests it did not extrude into lakes or streams. The steep sides and unusually large thicknesses of the trachyte flows comprising Koosick and Ornostay bluffs is attributed to them having been extruded through glacial ice.

Kakiddi Formation

The Kakiddi Formation consists of the remains of thick trachyte flows and associated pyroclastic rocks. They are lithologically and geomorphologically similar to the older Edziza Formation trachytes, but occur south of the central stratovolcano of Mount Edziza. The remains of a nearly 1-kilometre-wide (0.62-mile), rubble-covered trachyte flow are present on the eastern flank of Ice Peak in Sorcery Valley and in the south fork of Tennaya Valley where it is divided into two tributary branches. In Kakiddi Valley, the lava flow appears to have spread out to form a once continuous, terminal lobe at least 5 kilometres (3.1 miles) wide. Remnants of this terminal lobe are present in the form of isolated outcrops adjacent to Kakiddi Lake and Nuttlude Lake. The source of this Kakiddi flow remains unknown, but the tributary branch that descended Tennaya Valley probably originated from a vent near the summit of Ice Peak that is now covered by glaciers. A relatively small trachyte flow descended from Punch Cone on the western flank of Ice Peak and spread onto the Big Raven Plateau. Potassium–argon dating of the Kakiddi Formation has yielded ages of 0.31 ± 0.07 million years from mugearite, as well as 0.30 ± 0.02 million years, 0.29 ± 0.02 million years and 0.28 ± 0.02 million years from trachyte.

Big Raven Formation

The Big Raven Formation includes Icefall Cone, Ridge Cone, the Snowshoe Lava Field and the Sheep Track Member. All of these features consist of alkali basalt and hawaiite with the exception of the Sheep Track Member which comprises a small volume of trachyte pumice. Early volcanism in the Snowshoe Lava Field deposited material that was quenched by ice and meltwater, resulting in piles of tuff breccia, pillow lava and pillow breccia such as Tennena Cone. Cinder cones such as Cocoa Crater and Coffee Crater were created by subsequent lava fountain eruptions in a subaerial environment. The Saucer was formed by a later subaerial fissure eruption that was not accompanied by lava fountaining. Instead, lava issued quietly and flowed into Shaman Creek in the east and Taweh Creek in the west.

The Sheep Track Member is the product of a small but violent VEI-3 eruption from the southwestern flank of Ice Peak. It was deposited on all lava flows and cinder cones in the Snowshoe Lava Field with the exception of The Saucer which likely postdates the Sheep Track eruption. The source of the Sheep Track pumice is unknown, but it probably originated from a vent hidden under Tencho Glacier. Argon–argon dating indicates that the pumice was deposited by an explosive eruption sometime in the last 7,000 years, most likely around 950 CE.

Basement

Ice Peak is underlain by the Pyramid Formation, which consists mainly of Pleistocene rhyolite and trachyte flows, domes and thick piles of pyroclastic breccia. Also underlying Ice Peak are alkali basalt lava flows and flow breccia of the Tenchen Member of the Nido Formation, which were erupted from multiple volcanoes during the Pliocene. The southern edge of the Ice Peak pile laps out against Miocene comenditic or trachytic pumice and ash flows of the Armadillo Formation. The oldest geological formation underlying Ice Peak is the Raspberry Formation, which consists of Miocene alkali basalt and minor hawaiite and mugearite. These volcanic rocks are in the form of lava flows, flow breccia and agglutinate, although pillow lava and tuff breccia occur locally. Underlying the Raspberry Formation are sedimentary, volcanic and metamorphic rocks of the Stikinia terrane, which are Paleozoic and Mesozoic in age.

Name and etymology

The name of the peak was adopted on January 2, 1980, on the National Topographic System map 104G after being submitted to the BC Geographical Names office by the Geological Survey of Canada. Several other features on or near the flanks of Ice Peak have names that were also adopted on January 2, 1980, including Tennena Cone, Keda Cone, Koosick Bluff and Ornostay Bluff. Ice Peak is tautological with Ice Mountain, another name for Mount Edziza referring to its cover of glacial ice. The Ice Peak stratovolcano is sometimes referred to as Ice Volcano.

Provincial park

Ice Peak lies in Mount Edziza Provincial Park southeast of the community of Telegraph Creek. With an area of 266,180 hectares (657,700 acres), Mount Edziza Provincial Park is one of the largest provincial parks in British Columbia and was established in 1972 to showcase the volcanic landscape. It includes not only the Mount Edziza area, but also the Spectrum Range to the south, which are separated by Raspberry Pass. Mount Edziza Provincial Park is in the Tahltan Highland, a southeast-trending upland area extending along the western side of the Stikine Plateau.

Wildlife in the area includes moose, caribou, mountain goats, stone sheep, wolves, bears, squirrels, owls, ptarmigans, ravens, gyrfalcons, grouse and migratory songbirds. The climate is characterized by warm summers and cold, snowy winters; temperatures are warmest in mid-summer during the day when they may hit the 30 degrees Celsius (86 degrees Fahrenheit) range. However, temperatures can drop below freezing during summer nights, making snow or freezing rain a possibility at any time of the year.

See also

• List of volcanoes in Canada
• List of Northern Cordilleran volcanoes
• Volcanism of Western Canada

References

1. ^ Souther 1990, p. 125.
2. ^ BC Geographical Names: Ice Peak.
3. Government of Canada: Geographical Names Board of Canada.
4. ^ Global Volcanism Program: Edziza, General Information.
5. ^ Souther 1992, p. 32.
6. Souther 1992, pp. 18, 32, 33.
7. ^ Souther 1992, p. 267.
8. ^ Souther 1988: Geology, Mount Edziza Volcanic Complex, British Columbia.
9. ^ Natural Resources Canada: Stikine volcanic belt.
10. Natural Resources Canada: Ice Peak.
11. BC Geographical Names: Cassiar Land District.
12. Souther 1990, pp. 124, 125.
13. Souther 1992, p. 320.
14. ^ Souther 1992, p. 145.
15. BC Geographical Names: Tennaya Creek.
16. ^ Souther 1992, p. 33.
17. Souther 1992, pp. 27, 228.
18. Souther 1992, pp. 214, 228.
19. Souther 1992, pp. 26, 214.
20. Hungerford et al. 2014, p. 41.
21. ^ Global Volcanism Program: Edziza, Synonyms & Subfeatures.
22. Souther 1992, p. 214.
23. ^ BC Geographical Names: Keda Cone.
24. Souther 1992, pp. 27, 214.
25. Souther 1992, p. 228.
26. Souther 1992, pp. 24, 25, 210.
27. Souther 1992, p. 210.
28. ^ Souther 1992, p. 155.
29. Souther 1992, pp. 154, 155.
30. Edwards & Russell 2000, pp. 1280, 1281, 1283, 1284.
31. Edwards & Russell 2000, p. 1280.
32. Souther 1992, pp. 2, 246.
33. Souther 1992, pp. 1, 267, 276.
34. ^ Souther 1992, pp. 145, 150.
35. Souther 1992, p. 147.
36. Souther 1992, p. 150.
37. Lamoreaux et al. 2006.
38. Souther 1992, p. 154.
39. Government of Canada: Ice Peak Formation.
40. Spooner et al. 1995, p. 2047.
41. ^ Spooner et al. 1995, p. 2046.
42. Souther 1992, p. 18.
43. Smellie & Edwards 2016, p. 43.
44. Souther 1992, p. 207.
45. Souther 1992, p. 24.
46. Souther 1992, pp. 24, 25.
47. Souther, Armstrong & Harakal 1984, p. 341.
48. Souther 1992, pp. 27 228, 236.
49. Souther 1992, p. 213.
50. Souther 1992, pp. 26, 27.
51. ^ Souther 1992, p. 27.
52. ^ Global Volcanism Program: Edziza, Eruptive History.
53. Souther 1992, p. 237.
54. Souther 1992, p. 129.
55. ^ Souther 1988: Diagrammatic cross-sections A-B-C, D-E, F-G-H-I, J-K-L, M-N-O, P-Q-R to accompany Map 1623A, Mount Edziza Volcanic Complex.
56. Souther 1992, pp. 2, 39.
57. BC Geographical Names: Tennena Cone.
58. BC Geographical Names: Koosick Bluff.
59. BC Geographical Names: Ornostay Bluff.
60. BC Geographical Names: Mount Edziza.
61. Government of British Columbia: Conservancy renamed Ice Mountain, reflects Tahltan heritage 2022.
62. Edwards et al. 2009, p. 252.
63. Global Volcanism Program: Edziza, Photo Gallery.
64. ^ BC Parks: Mount Edziza Provincial Park.
65. ^ Department of Energy, Mines and Resources 1989.
66. Holland 1976, p. 49.

Sources

• "A 502" (Topographic map). Telegraph Creek, Cassiar Land District, British Columbia (3 ed.). 1:250,000. 104 G (in English and French). Department of Energy, Mines and Resources. 1989. Archived from the original on May 2, 2021.
• "Cassiar Land District". BC Geographical Names. Archived from the original on June 27, 2018.
• "Conservancy renamed Ice Mountain, reflects Tahltan heritage". Government of British Columbia. February 9, 2022. Archived from the original on September 27, 2022.
• Edwards, Benjamin R.; Russell, James K. (2000). "Distribution, nature, and origin of Neogene–Quaternary magmatism in the northern Cordilleran volcanic province, Canada". Geological Society of America Bulletin. 112 (8). Geological Society of America: 1280–1295. Bibcode:2000GSAB..112.1280E. doi:10.1130/0016-7606(2000)112<1280:dnaoon>2.0.co;2. ISSN 0016-7606.
• Edwards, Benjamin R.; Skilling, Ian P.; Cameron, Barry; Haynes, Courtney; Lloyd, Alex; Hungerford, Jefferson H.D. (2009). "Evolution of an englacial volcanic ridge: Pillow Ridge tindar, Mount Edziza volcanic complex, NCVP, British Columbia, Canada". Journal of Volcanology and Geothermal Research. 185 (4). Elsevier: 251–275. doi:10.1016/j.jvolgeores.2008.11.015. ISSN 0377-0273.
• "Edziza". Global Volcanism Program. Smithsonian Institution. Archived from the original on January 14, 2025.
• "Geographical Names Board of Canada". Government of Canada. Archived from the original on May 24, 2024.
• Holland, Stuart S. (1976). Landforms of British Columbia: A Physiographic Outline (PDF) (Report). Vol. 48. Government of British Columbia. ASIN B0006EB676. OCLC 601782234. Archived from the original (PDF) on November 14, 2018.
• Hungerford, Jefferson D. G.; Edwards, Benjamin R.; Skilling, Ian P.; Cameron, Barry I. (2014). "Evolution of a subglacial basaltic lava flow field: Tennena volcanic center, Mount Edziza volcanic complex, British Columbia, Canada". Journal of Volcanology and Geothermal Research. 272. Elsevier: 39–58. doi:10.1016/j.jvolgeores.2013.09.012. ISSN 0377-0273.
• "Ice Peak". BC Geographical Names. Archived from the original on June 9, 2024.
• "Ice Peak". Catalogue of Canadian volcanoes. Natural Resources Canada. March 10, 2009. Archived from the original on December 11, 2010.
• "Ice Peak Formation". Lexicon of Canadian Geologic Units. Government of Canada. Archived from the original on December 12, 2023.
• "Keda Cone". BC Geographical Names. Archived from the original on October 20, 2021.
• "Koosick Bluff". BC Geographical Names. Archived from the original on September 30, 2021.
• "Mount Edziza". BC Geographical Names. Archived from the original on May 15, 2018.
• "Mount Edziza Provincial Park". BC Parks. Archived from the original on January 23, 2023.
• Lamoreaux, K. A.; Skilling, I. P.; Endress, C.; Edwards, B.; Lloyd, A.; Hungerford, J. (2006). Preliminary Studies of the Emplacement of Trachytic Lava Flows and Domes in an Ice- Contact Environment: Mount Edziza, British Columbia, Canada. American Geophysical Union, Fall Meeting 2006. Astrophysics Data System. Bibcode:2006AGUFM.V53C1757L.
• "Ornostay Bluff". BC Geographical Names. Archived from the original on October 1, 2021.
• Smellie, John L.; Edwards, Benjamin R. (2016). Glaciovolcanism on Earth and Mars: Products, Processes and Palaeoenvironmental Significance. Cambridge University Press. ISBN 978-1-107-03739-7.
• Souther, J. G. (1988). "1623A" (Geologic map). Geology, Mount Edziza Volcanic Complex, British Columbia. 1:50,000. Cartography by M. Sigouin, Geological Survey of Canada. Energy, Mines and Resources Canada. doi:10.4095/133498.
• Souther, J. G. (1988). Diagrammatic cross-sections A-B-C, D-E, F-G-H-I, J-K-L, M-N-O, P-Q-R to accompany Map 1623A, Mount Edziza Volcanic Complex (PDF) (Diagrammatic cross sections). 1:50,000. Cartography by M. Sigouin, Geological Survey of Canada. Energy, Mines and Resources Canada. Archived from the original (PDF) on July 6, 2024.
• Souther, Jack G. (1990). "Volcanoes of Canada". In Wood, Charles A.; Kienle, Jürgen (eds.). Volcanoes of North America: United States and Canada. Cambridge University Press. ISBN 0-521-43811-X.
• Souther, J. G. (1992). The Late Cenozoic Mount Edziza Volcanic Complex, British Columbia. Geological Survey of Canada (Report). Memoir 420. Canada Communication Group. doi:10.4095/133497. ISBN 0-660-14407-7.
• Souther, J. G.; Armstrong, R. L.; Harakal, J. (1984). "Chronology of the peralkaline, late Cenozoic Mount Edziza Volcanic Complex, northern British Columbia, Canada". Geological Society of America Bulletin. 95 (3). Geological Society of America: 337–349. Bibcode:1984GSAB...95..337S. doi:10.1130/0016-7606(1984)95<337:COTPLC>2.0.CO;2. ISSN 0016-7606.
• Spooner, I. S.; Osborn, G. D.; Barendregt, R. W.; Irving, E. (1995). "A record of Early Pleistocene glaciation on the Mount Edziza Plateau, northwestern British Columbia". Canadian Journal of Earth Sciences. 32 (12). NRC Research Press: 2046–2056. Bibcode:1995CaJES..32.2046S. doi:10.1139/e95-158. ISSN 0008-4077.
• "Stikine volcanic belt". Catalogue of Canadian volcanoes. Natural Resources Canada. February 13, 2008. Archived from the original on December 11, 2010.
• "Tennaya Creek". BC Geographical Names. Archived from the original on September 30, 2021.
• "Tennena Cone". BC Geographical Names. Archived from the original on June 8, 2024.

External links

• "Ice Peak". Geographical Names Data Base. Natural Resources Canada.

• Mount Edziza
• Stratovolcanoes of Canada
• Calderas of British Columbia
• Pleistocene volcanoes
• Holocene volcanoes
• Central volcanoes
• Two-thousanders of British Columbia
• Pyramidal peaks