Cadomin Formation

Last updated
Cadomin Formation
Stratigraphic range: Early Cretaceous
Cadomin Formation 2 Preview.jpg
Cadomin Formation outcrops, Centennial Ridge Trail, Mount Allan, Kananaskis, Alberta.
Type Geological formation
Unit of Bullhead Group, Blairmore Group, Luscar Group
Underlies Gething Formation, Gladstone Formation
Overlies Kootenay Group, Nikanassin Formation, Minnes Group, Fernie Group
Thicknessup to more than 170 metres (560 ft) [1]
Lithology
Primary Conglomerate, sandstone
Other Shale, coal
Location
Coordinates 53°00′N117°19′W / 53.000°N 117.317°W / 53.000; -117.317 (Cadomin Formation) Coordinates: 53°00′N117°19′W / 53.000°N 117.317°W / 53.000; -117.317 (Cadomin Formation)
RegionFlag of Alberta.svg  Alberta
Flag of British Columbia.svg  British Columbia
CountryFlag of Canada (Pantone).svg  Canada
Type section
Named for Cadomin, Alberta
Named byB.R. Mackay [2]

The Cadomin Formation is a stratigraphic unit of Early Cretaceous (Barremian to Aptian) age in the western part of the Western Canada Sedimentary Basin. [3] It is extends from southeastern British Columbia through western Alberta to northeastern British Columbia, and it contains significant reservoirs of natural gas in some areas. It was named after the mining town of Cadomin, which is an acronym of "Canadian Dominion Mining". [4]

Contents

Stratigraphy

The Cadomin Formation is of Early Cretaceous (Barremian to Aptian) age. It is the basal unit of the Bullhead Group in northeastern British Columbia and of the Blairmore Group in Alberta. [3] The formation is a distinctive marker horizon, and it was sometimes called the "coal conglomerate" because it was useful as a reference point for locating the coal seams of the underlying Mist Mountain Formation and the overlying Gething Formation. [5] It is not fossiliferous.

Lithology

A photomicrograph of Cadomin Formation sandstone. Cadomin FM micro.JPG
A photomicrograph of Cadomin Formation sandstone.
Rounded pebbles and cobbles in the Cadomin Formation, Centennial Ridge Trail, Mount Allan, Alberta. Cadomin Formation outcrops along Mt Allan Centenial Ridge Trail.jpg
Rounded pebbles and cobbles in the Cadomin Formation, Centennial Ridge Trail, Mount Allan, Alberta.

The formation consists primarily of conglomerate, although at some localities there are minor interbeds of coarse-grained sandstone, shale, and coal. The conglomerate is typically massive and consists of well-rounded pebbles, cobbles and boulders of white, grey and green chert, and white and grey quartzite, in a matrix of quartzose sand. In some areas there are also minor pebbles, cobbles and boulders of limestone, dolomite, black argillite and, rarely, greenish volcanics. The conglomerate and sandstone beds are cemented with silica, making them very hard and resistant to erosion, so they tend to form prominent outcrops. [6]

Environment of deposition

Deposition of the Cadomin Formation marked the renewal of subsidence and sedimentation following a long period of uplift, exposure and erosion of older strata. [3] The Cadomin sediments were derived from sources in the mountains to the west, and were deposited across the pediment surface by systems of alluvial fans and braided streams. It is postulated that the streams flowed generally northeastward, turning northwestward at the Fox Creek Escarpment. [5]

Paleontology

The Cadomin Formation preserves the oldest dinosaur skeletal fossils from Alberta (and anywhere west of Nova Scotia, in Canada). [7] The fossil material is attributable to a polacanthid ankylosaur, and comes from the basal unit of the Cadomin formation known as the Pocaterra Creek member. Unattributed turtle material was also reported from the formation, and the same locality as the dinosaur material. [8]

Distribution

Outcrops near Cadomin, Alberta are the type locality. The formation is exposed at the surface in the foothills of the Canadian Rockies, extending from the Canada–US border in southeastern British Columbia and southwestern Alberta and to the Peace River region in northeastern British Columbia, a distance of more than 1,000 kilometers (620 mi). It is also recognizable in the subsurface east of the foothills. It ranges in thickness from 1 metre (3.3 ft) to more than 170 metres (560 ft) and is generally thicker and more coarse grained in the west. [1]

Relationship to other units

The Cadomin Formation overlies a major regional unconformity caused by pre-Cadomin erosion, although little or no evidence of the angular nature of that unconformity is apparent at most outcrops. [6] It rests unconformably on the Fernie Formation, the Nikanassin Formation, the Minnes Group or the Kootenay Group, depending on the location and the extent of the erosion. It is conformably overlain by the Gladstone Formation in Alberta and Gething Formation in northeastern British Columbia, and it is equivalent to the base of the Mannville Group. [3]

Hydrocarbon production

Natural gas is produced from the Cadomin Formation in the Deep Basin area of western Alberta in the Hinton-Grande Cache-Grande Prairie area, and in the Cutbank area in northeastern British Columbia. [9]

Related Research Articles

<span class="mw-page-title-main">Nikanassin Formation</span>

The Nikanassin Formation is a stratigraphic unit of Late Jurassic (Portlandian) to Early Cretaceous (Barremian) age. It is present along the western edge of the Western Canada Sedimentary Basin in western Alberta and northeastern British Columbia. Its name was first proposed by D.B. Dowling in 1909 (Coal Fields South of Grand Trunk Pacific Railway, in the foothills of the Rocky Mountain, Alberta Page 140 paragraph 4 " to this it is proposed to give the name Nikanassin, from the Cree word meaning outer range" Also it is noted on the map by D.B. Dowling.(Geological Survey of Canada. Incorrect info follows: It was named by B.R. MacKay in 1929 for the Nikanassin Range of the front-central ranges of the Canadian Rockies. Mackay did not designate a type locality for the formation, although he described outcrops near the hamlet of Brûlé, north of the Yellowhead Highway outside of Jasper National Park.

<span class="mw-page-title-main">Bluesky Formation</span>

The Bluesky Formation is a stratigraphic unit of Lower Cretaceous age in the Western Canada Sedimentary Basin. It takes the name from the hamlet of Bluesky, and was first described in Shell's Bluesky No. 1 well by Badgley in 1952.

Gething Formation is a stratigraphic unit of Lower Cretaceous (Aptian) age in the Western Canada Sedimentary Basin. It is present in northeastern British Columbia and western Alberta, and includes economically important coal deposits.

Bullhead Group is a stratigraphic unit of Lower Cretaceous age in the Western Canada Sedimentary Basin of northeastern British Columbia and western Alberta. It was first defined by F.H. McLearn in 1918 as the Bullhead Mountain Formation, but later was upgraded to group status. It consists of the Cadomin and Gething Formations, although some early workers included the Bluesky Formation and others in the group.

<span class="mw-page-title-main">McMurray Formation</span> Geological formation in Alberta, Canada

The McMurray Formation is a stratigraphic unit of Early Cretaceous age of the Western Canada Sedimentary Basin in northeastern Alberta. It takes the name from Fort McMurray and was first described from outcrops along the banks of the Athabasca River 5 kilometres (3.1 mi) north of Fort McMurray by F.H. McLearn in 1917. It is a well-studied example of fluvial to estuarine sedimentation, and it is economically important because it hosts most of the vast bitumen resources of the Athabasca Oil Sands region.

The Mist Mountain Formation is a geologic formation of latest Jurassic to earliest Cretaceous age in the Western Canada Sedimentary Basin that is present in the southern and central Canadian Rockies. It was named for outcrops along the western spur of Mist Mountain in Alberta by D.W. Gibson in 1979. The Mist Mountain Formation contains economically important coal seams that have been mined in southeastern British Columbia and southwestern Alberta.

<span class="mw-page-title-main">Edmonton Group</span>

Within the earth science of geology, the Edmonton Group is a Late Cretaceous to early Paleocene stratigraphic unit of the Western Canada Sedimentary Basin in the central Alberta plains. It was first described as the Edmonton Formation by Joseph Burr Tyrrell in 1887 based on outcrops along the North Saskatchewan River in and near the city of Edmonton. E.J.W. Irish later elevated the formation to group status and it was subdivided into four separate formations. In ascending order, they are the Horseshoe Canyon, Whitemud, Battle and Scollard Formations. The Cretaceous-Paleogene boundary occurs within the Scollard Formation, based on dinosaurian and microfloral evidence, as well as the presence of the terminal Cretaceous iridium anomaly.

<span class="mw-page-title-main">Morrissey Formation</span>

The Morrissey Formation is a stratigraphic unit of Late Jurassic (Portlandian) age in the Western Canada Sedimentary Basin. It is named for outcrops on Morrissey Ridge, 16 kilometres (10 mi) southeast of Fernie, British Columbia, and is present in southeastern British Columbia and southwestern Alberta.

The Elk Formation is a stratigraphic unit of the Western Canada Sedimentary Basin that is present in southeastern British Columbia and southwestern Alberta. It is probably of Early Cretaceous age, but in some areas its strata could be as old as Late Jurassic. It includes minor thin coal beds and was named for outcrops near the now-abandoned Elk River coal mine east of Fernie, British Columbia.

The Minnes Group, originally named the Minnes Formation, is a geologic unit of latest Jurassic to earliest Cretaceous age in the Western Canada Sedimentary Basin. It is present in the northern foothills of the Canadian Rockies and the adjacent plains in northeastern British Columbia and west-central Alberta. Its strata include natural gas reservoirs and minor coal deposits. Fossil dinosaur tracks have been described from one of its formations.

The Blairmore Group, originally named the Blairmore Formation, is a geologic unit of Early Cretaceous age in the Western Canada Sedimentary Basin that is present in southwestern Alberta and southeastern British Columbia. It is subdivided into four formations: Cadomin Formation, Gladstone, Beaver Mines and Ma Butte, all of which are defined by type sections, most of which contain plant fossils. In some areas the Blairmore contains significant reservoirs of natural gas.

The Monach Formation is a geologic formation of Early Cretaceous (Valanginian) age in the Western Canada Sedimentary Basin that consists primarily of sandstone. It is present in the northern foothills of the Canadian Rockies and the adjacent plains in northeastern British Columbia.

The Beaver Mines Formation is a stratigraphic unit of Early Cretaceous (Albian) age in the Western Canada Sedimentary Basin that is present in southwestern Alberta and southeastern British Columbia, Canada. It was established by G.B. Mellon in 1967 who named it for the hamlet of Beaver Mines, Alberta. It contains a variety of plant fossils.

The Boulder Creek Formation is a geologic formation in northeastern British Columbia. It was named for a tributary to Commotion Creek in the Pine Pass area by E.M. Spieker in 1921. At one time considered to be a member of the Commotion Formation, it was elevated to formation status by D.F. Stott in 1982.

The Kootenay Group, originally called the Kootenay Formation, is a geologic unit of latest Jurassic to earliest Cretaceous age in the Western Canada Sedimentary Basin that is present in the southern and central Canadian Rockies and foothills. It includes economically important deposits of high-rank bituminous and semi-anthracite coal, as well as plant fossils and dinosaur trackways.

The Gorman Creek Formation is a geologic formation of Early Cretaceous (Valanginian) age in the Western Canada Sedimentary Basin that consists primarily of nonmarine sediments. It is present in the northern foothills of the Canadian Rockies and the adjacent plains in northeastern British Columbia. Plant fossils and dinosaur tracks have been described from its strata.

The Bickford Formation is a geologic formation of Early Cretaceous (Valanginian) age in the Western Canada Sedimentary Basin that consists primarily of nonmarine sediments. It is present in the northern foothills of the Canadian Rockies in northeastern British Columbia.

The Luscar Group is a geologic unit of Early Cretaceous age in the Western Canada Sedimentary Basin that is present in the foothills of southwestern Alberta. It is subdivided into a series of formations, some of which contain economically significant coal deposits that have been mined near Cadomin and Luscar. Coal mining in those areas began in the early 1900s and continues near Luscar as of 2016.

The Gladstone Formation is a stratigraphic unit of Early Cretaceous (Aptian) age in the Western Canada Sedimentary Basin. It is present in the foothills of southwestern Alberta and is named for outcrops along Gladstone Creek, a tributary of the Castle River south of the Crowsnest Pass.

The Ma Butte Formation is a stratigraphic unit of Early Cretaceous (Albian) age in the Western Canada Sedimentary Basin. It was named for Ma Butte, a mountain north of Coleman, Alberta, by J.R. McLean in 1980. It is present in the foothills of southwestern Alberta and it contains plant fossils.

References

  1. 1 2 Glass, D.J. (editor) 1997. Lexicon of Canadian Stratigraphy, vol. 4, Western Canada including eastern British Columbia, Alberta, Saskatchewan and southern Manitoba. Canadian Society of Petroleum Geologists, Calgary, 1423 p. on CD-ROM. ISBN   0-920230-23-7.
  2. Mackay, B.R., 1930. Stratigraphy and structure of bituminous coal fields in the vicinity of Jasper Park, Alberta. Can. Inst. Min. and Metall., Trans., v. 33, p. 473-509.
  3. 1 2 3 4 Mossop, G.D. and Shetsen, I. (compilers), Canadian Society of Petroleum Geologists and Alberta Geological Survey (1994). "The Geological Atlas of the Western Canada Sedimentary Basin, Chapter 19: Cretaceous Mannville Group of the Western Canada Sedimentary Basin". Archived from the original on 2016-07-01. Retrieved 2016-06-20.{{cite web}}: CS1 maint: multiple names: authors list (link)
  4. Alberta Speleological Society. Cadomin Cave Archived 2009-04-18 at the Wayback Machine
  5. 1 2 McLean, J.R. 1977. The Cadomin Formation: Stratigraphy, sedimentology, and tectonic implications. Bulletin of Canadian Petroleum Geology 25: 792-827.
  6. 1 2 Stott, D.F. 1965. Lower Cretaceous Bullhead and Fort St John Groups, between Smoky and Peace Rivers, Rocky Mountain foothills, Alberta and British Columbia. Geological Survey of Canada, Bulletin 152, 279 p. ISBN   0-660-10208-0.
  7. Nagesan, R.S. et al. 2019
  8. Nagesan, R.S., Campbell, J.A., Pardo, J.D., Lennie, K.I., Vavrek, M.J., & Anderson, J.S. (2019). An Early Cretaceous (Berriasian) fossil-bearing locality from the Rocky Mountains of Alberta, yielding the oldest dinosaur skeletal remains from western Canada. Canadian Journal of Earth Sciences. [Just-in Article, December 19th 2019]. 10.1139/cjes-2019-0166
  9. Varley, C.J. 1984. The Cadomin Formation: A model for the Deep Basin type gas trapping mechanism. In: Stott, D.F. and Glass, D.J. (editors), Mesozoic of Middle North America; Canadian Society of Petroleum Geologists, Memoir 9, p. 471-484.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.