Mess Creek Escarpment
The Mess Creek Escarpment forms the west-central side of the Mount Edziza volcanic complex and consists of at least six geological formations, each being the product of a distinct period of volcanic activity over the last 7.5 million years. With the exception of the Armadillo and Spectrum formations which consist of basalt, trachyte and comendite, volcanic rocks of the Raspberry, Nido, Ice Peak and Big Raven formations exposed along the escarpment are mainly basaltic in composition. Underlying these geological formations are much older Paleozoic–Mesozoic rocks of the Stikinia terrane and Cretaceous–Paleocene rocks of the Sustut Group.
Name and etymology
The name of the escarpment was adopted 2 January 1980 on the National Topographic System map 104G after being submitted to the BC Geographical Names office by the Geological Survey of Canada. It was required for geology reporting purposes since Jack Souther, a volcanologist of the Geological Survey of Canada, was studying the area in detail between 1970 and 1992. The escarpment was named for its association with Mess Creek, a tributary of the Stikine River which flows into Sumner Strait of southeast Alaska. It is one of two officially named escarpments in British Columbia, the other being the Etsho Escarpment northeast of Fort Nelson in Peace River Land District.
Geography
The Mess Creek Escarpment is in the Tahltan Highland east of the Boundary Ranges of the Coast Mountains and west of the Skeena Mountains and Klastline Plateau in Cassiar Land District. It forms the east-central side of Mess Creek valley and the west-central side of the Mount Edziza volcanic complex, consisting of two segments separated about 5 kilometres (3.1 miles) by Walkout Creek valley. The northern segment extends southeast along the southwestern side of the Big Raven Plateau for about 8 kilometres (5.0 miles) and reaches an elevation of 1,700 metres (5,500 feet). At least four unnamed streams flow down this segment of the escarpment into Mess Creek which is less than 760 metres (2,500 feet) in elevation.
The southern segment reaches an elevation of more than 1,700 metres (5,500 feet) and extends generally south along the northwestern, western and southwestern edges of the Kitsu Plateau for about 10 kilometres (6.2 miles). The Mess Creek Escarpment therefore has a total length of approximately 23 kilometres (14 miles) and rises more than 910 metres (3,000 feet) above the floor of Mess Creek valley. At least five streams flow down the southern segment into Mess Creek valley, including Kitsu Creek which originates from Kitsu Peak in the Spectrum Range. Mess Lake, an expansion of Mess Creek, lies below the southern segment of the Mess Creek Escarpment.
Geology
Stratigraphy
The Mess Creek Escarpment is subdivided into at least six geological formations, each being the product of a distinct period of volcanic activity. These periods of volcanic activity occurred during four 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 two oldest geological formations comprising the Mess Creek Escarpment are the Raspberry and Armadillo formations which were deposited by volcanic eruptions during the first magmatic cycle between 7.5 and 6 million years ago. Overlying these two geological formations are the Nido and Spectrum formations which were deposited between 6 and 3 million years ago during the second magmatic cycle. Volcanism during the third magmatic cycle about 1 million years ago created the Ice Peak Formation which overlies the Nido Formation. The fifth oldest geological formation comprising the Mess Creek Escarpment is the Big Raven Formation which was deposited during the fifth magmatic cycle in the last 20,000 years.
Raspberry Formation
The Raspberry Formation consists of flat-lying basaltic lava flows interbedded with scoria and is exposed along the base of the Mess Creek Escarpment where it has an elevation of less than 1,310 metres (4,300 feet). More than 180 metres (590 feet) of Raspberry lava flows are exposed in the Mess Creek Escarpment, most of which were erupted from a shield volcano that formed on a Late Miocene erosion surface. These lava flows travelled westward into the ancestral valley of Mess Creek and originated from vents north of Raspberry Pass which were subsequently buried under younger volcanic deposits. A minimum age for the timing of Raspberry volcanism is 7.4–6.2 million years.
Armadillo Formation
Basaltic lava flows of the 6.3-million-year-old Armadillo Formation are interbedded with air-fall pumice and ash flows of trachytic and comenditic compositions. They were highly fluid and mobile at the time of their eruption as evidenced by their extreme persistence and relatively narrow thicknesses; individual basalt flows are normally less than 3 metres (9.8 feet) thick. The source of these flows was probably a cluster of vents further to the north called Sezill Volcano which may have been active prior to the onset of Armadillo volcanism. In contrast, the air-fall pumice and ash flows probably originated from the more than 4-kilometre-in diameter (2.5-mile) Armadillo Peak caldera east of the Mess Creek Escarpment.
Nido Formation
The 4.4-million-year-old Nido Formation consists of two stratigraphic units, both of which are exposed along the Mess Creek Escarpment and overlie the Raspberry and Armadillo formations. Alkali basalt and minor hawaiite of the Tenchen Member are exposed along the northern segment of the escarpment and comprise lava flows, flow breccia and agglutinate; the lava flows are brown-weathered and columnar jointed. The Tenchen Member was erupted from at least three major volcanoes and several smaller satellitic centres which have been either buried under younger volcanic deposits or destroyed by erosion. Alkali basalt and minor hawaiite of the Kounugu Member are exposed along the southern segment of the Mess Creek Escarpment and are in the form of lava flows, flow breccia and agglutinate. The Kounugu Member was erupted from at least four volcanoes which have also been deeply eroded and extensively buried under younger volcanic rocks.
Spectrum Formation
Overlying the Kounugu Member is the 3.1-million-year-old Spectrum Formation which mainly occurs along the southern segment of the Mess Creek Escarpment. This geological formation largely consists of comendite, pantellerite and pantelleritic trachyte which are in the form of lava domes and lava flows, as well as minor breccia and ash flow deposits. Spectrum trachyte flows exposed along the upper part of the Mess Creek Escarpment are relatively thin compared to those forming the Spectrum Range to the southeast but they are the most distal remnants of the main Spectrum Dome. These trachyte flows are overlain by alkali basalt of the Kitsu Member which is also exposed along the escarpment. This alkali basalt is in the form of lava flows and likely originated from vents of the Spectrum Dome which have since been destroyed by erosion.
Ice Peak Formation
The approximately 1-million-year-old Ice Peak Formation mainly occurs along the northern segment of the Mess Creek Escarpment where it overlies the Tenchen Member of the Nido Formation, as well as the older Armadillo and Raspberry formations. Most of the volcanic rocks comprising this geological formation were erupted from Ice Peak on the Big Raven Plateau, but the main Ice Peak Formation rock exposed along the escarpment is basalt from Camp Hill near the southwestern edge of the plateau. This basalt mainly erupted as subaerial lava flows which are exposed along the Mess Creek Escarpment for about 8 kilometres (5.0 miles) and are almost completely buried under colluvium deposits on the Big Raven Plateau. Just southwest of Camp Hill, the basalt is in the form of tuff breccia and pillow lava which are probably the products of quenching in meltwater when Camp Hill initially erupted under glacial ice.
Big Raven Formation
The Big Raven Formation mainly occurs along the southern segment of the Mess Creek Escarpment where it overlies the Nido and Spectrum formations. This geological formation is the youngest and uppermost along the entire Mess Creek Escarpment, consisting of hawaiite and alkali basalt which erupted from three Holocene pyroclastic cones in the Mess Lake Lava Field. Alkali basalt flows from the two oldest cones travelled westward on the Kitsu Plateau to the edge of the escarpment where they cooled into crude columnar joints. These lava flows most likely cascaded over the escarpment into the densely wooded valley of Mess Creek, but no evidence of this phenomenon has been found on or below the escarpment. Overlying these alkali basalt flows and the Spectrum Formation is a 6.5-kilometre-long (4.0-mile) and 2.5-kilometre-wide (1.6-mile) hawaiitic air-fall tephra deposit which also occurs along the edge of the Mess Creek Escarpment. The source of this tephra was The Ash Pit which formed at the southern end of the Mess Creek Escarpment and produced a towering lava fountain.
Basement
As a part of the Mount Edziza volcanic complex, the Mess Creek Escarpment is underlain by the Stikinia terrane. This is a Paleozoic and Mesozoic suite of volcanic, sedimentary and metamorphic rocks that accreted to the continental margin of North America during the Jurassic. The rocks of this terrane are largely buried under landslide and colluvium deposits, as well as stream gravel, outwash and braided channel deposits. Minor exposures of Cretaceous–Paleocene sedimentary rocks assigned to the Sustut Group are present in the mouth of Nagha Creek valley at the southern end of the Mess Creek Escarpment and are in the form of conglomerates, sandstones, arkoses, siltstones, shales or minor coal.
Provincial park
The Mess Creek Escarpment lies at the western end of Mount Edziza Provincial Park, a protected area founded in 1972 to showcase the volcanic landscape. This remote wilderness area of northwestern British Columbia is not accessible by motorized vehicles to help protect the very sensitive environment. Instead, access is mainly via aircraft or unmaintained hiking trails that cross creeks. Mount Edziza Provincal Park covers 266,180 hectares (657,700 acres), making it one of the largest provincial parks in British Columbia. Hunting, camping, fishing, hiking, wildlife viewing and nature studying are some of the activities available in Mount Edziza Provincial Park.
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.
Accessibility
From near the Eastman Creek Rest Area south of Kinaskan Lake on the Stewart–Cassiar Highway, the historic Yukon Telegraph Trail extends about 15 kilometres (9.3 miles) west to the Little Iskut River. From there, it enters Mount Edziza Provincial Park and continues another 15 kilometres (9.3 miles) west along Bourgeaux Creek through Raspberry Pass. The telegraph trail then continues to the northwest through Raspberry Creek valley along the northern edge of the Kitsu Plateau for about 15 kilometres (9.3 miles) to Mess Creek valley. Only short segments of the Yukon Telegraph Trail are still passible, having been mostly overgrown since maintenance of the trail ended in 1936.
The Mess Creek Escarpment can be accessed by float plane or helicopter, both of which are available for charter at the communities of Iskut and Dease Lake. Private aircraft are prohibited from landing on the neighbouring Kitsu Plateau lava flows. Mess Lake is large enough to be used by float-equipped aircraft, but landing on it with a private aircraft requires a letter of authorization from the BC Parks Stikine Senior Park Ranger.
See also
References
- ^ "Mess Creek Escarpment". BC Geographical Names. Archived from the original on 2021-10-01. Retrieved 2024-09-22.
- ^ Telegraph Creek, Cassiar Land District, British Columbia (Topographic map) (3 ed.). 1:250,000. A502 (in English and French). Department of Energy, Mines and Resources. 1989. Archived from the original on 2021-05-02. Retrieved 2021-09-25.
- ^ Souther 1992, p. 32.
- ^ "Geographical Names Board of Canada". Government of Canada. 29 June 2011. Archived from the original on 2024-05-24. Retrieved 2024-08-19.
- ^ 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.
- ^ "Tennena Cone". BC Geographical Names. Archived from the original on 2024-06-08. Retrieved 2024-09-25.
- ^ "Acceptance of the 1995 Career Achievement Award by Jack Souther" (PDF). Ash Fall. Geological Association of Canada. 1996. p. 3. Archived from the original (PDF) on 2018-12-05.
- ^ "Stikine volcanic belt: Mount Edziza". Catalogue of Canadian volcanoes. Natural Resources Canada. 2009-04-01. Archived from the original on 2009-06-08. Retrieved 2024-07-03.
- ^ "Mess Creek". BC Geographical Names. Archived from the original on 2024-06-07. Retrieved 2024-09-25.
- ^ National Emergency Relief: Hearings Before the Committee on Ways and Means, House of Representatives, Seventy-Second Congress, First Session on H. R. 12353. United States Government Printing Office. 1932. p. 60. OCLC 6245991. Retrieved 2024-09-25.
- ^ "Search the Canadian Geographical Names Database (CGNDB)". Government of Canada. Retrieved 2024-09-26.
- ^ "Etsho Escarpment". BC Geographical Names. Retrieved 2024-10-18.
- ^ "Kitsu Creek". Geographical Names Data Base. Natural Resources Canada. Retrieved 2024-09-25.
- ^ "Mess Lake". BC Geographical Names. Archived from the original on 2016-03-04. Retrieved 2024-09-25.
- ^ Souther 1992, p. 267.
- ^ Souther 1992, pp. 1, 267, 276.
- ^ Souther 1992, pp. 6, 47.
- ^ 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: 342–344. Bibcode:1984GSAB...95..337S. doi:10.1130/0016-7606(1984)95<337:COTPLC>2.0.CO;2. ISSN 0016-7606.
- ^ Souther 1992, pp. 83, 267.
- ^ Souther 1992, p. 83.
- ^ Wood, Charles A.; Kienle, Jürgen (1990). Volcanoes of North America: United States and Canada. Cambridge University Press. pp. 124, 125. ISBN 0-521-43811-X.
- ^ Souther 1992, p. 93.
- ^ Souther 1992, p. 104.
- ^ Souther 1992, p. 113.
- ^ Souther 1992, pp. 113, 122.
- ^ Souther 1992, pp. 145, 157.
- ^ Souther 1992, p. 18.
- ^ Souther 1992, p. 235.
- ^ Souther 1992, p. 26.
- ^ 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: 1281, 1287. Bibcode:2000GSAB..112.1280E. doi:10.1130/0016-7606(2000)112<1280:dnaoon>2.0.co;2. ISSN 0016-7606.
- ^ Souther 1992, p. 39.
- ^ "Mount Edziza Provincial Park". BC Parks. Archived from the original on 2023-01-23. Retrieved 2024-09-26.
- ^ "Edziza: Photo Gallery". Global Volcanism Program. Smithsonian Institution. Archived from the original on 2021-09-21. Retrieved 2023-05-03.
- ^ Mussio, Russell, ed. (2018). Northern BC Backroad Mapbook. Mussio Ventures. pp. 88, 89. ISBN 978-1-926806-87-7.
- ^ Souther 1992, p. 31.
Sources
- 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.