The sandstones were deposited in river channels. They are cross-bedded, medium- to coarse-grained, and locally conglomeratic. The siltstones and mudstones represent crevasse splay, overbank and shallow pond environments. They include plant fossils, rooted horizons and paleosols.[7] Carbonaceous mudstones and coaly beds that represent oxygen-poor, swampy settings are thin and discontinuous, but common. Thick coal seams that formed in well-developed swamps are present only in the youngest portion of the formation, which is preserved near Hinton.[6]
Stratigraphy
Although some early workers included the underlying Scollard Formation as the lower part of the Paskapoo, the two are now treated separately.[6] The base of the Paskapoo Formation, designated the Haynes Member, consists primarily of cliff-forming sandstones and pebble-conglomerates, interbedded with lesser amounts of siltstone and mudstone. In the overlying Lacombe Member, siltstones and mudstones are dominant, with interbeds of fine-grained sandstone, carbonaceous mudstones, paleosols, and thin coals. The Dalehurst Member at the top of the formation consists of the Obed coal zone.[8] The Dalehurst strata are similar to those of the Lacombe Member, but the Dalehurst sequence includes up to six coal seams, with individual seams up to 5 metres (20 ft) thick.[9]
Distribution
The Paskapoo Formation underlies much of southwestern Alberta.[3] It is thickest in the foothills of the Canadian Rockies, and thins eastward to the 112th meridian west in the plains. The formation is more than 750 metres (2,460 ft) thick in the foothills,[10] and about 600 metres (1,970 ft) near Calgary.[1] It is assumed that it originally reached thicknesses as great as 1,000 metres (3,280 ft) in some areas prior to erosion.
The formation is exposed at the surface along a trend that extends from Calgary to west of Edmonton. Good outcrops can be seen in the eastern reaches of the foothills, and along the Bow River in and around Calgary (for example at Paskapoo Slopes), the Red Deer River near Red Deer, the North Saskatchewan River west of Edmonton, and the Athabasca River. The Dalehurst Member is an erosional remnant and is confined to an area adjacent to the foothills near Hinton and Obed.[8]
Relationship to other units
The Paskapoo Formation underlies the present day erosional surface and it is exposed in outcrop in many areas. Cover, where present, consists of Quaternary sediments or, on a few localized plateaus, of younger Tertiary gravels.[6]
The Paskapoo rests on the Scollard Formation in the Alberta plains, and on the equivalent Coalspur Formation in the Alberta foothills.[11] The lower boundary has been defined as the erosional base of the first prominent sandstone above the Ardley coal zone of the Scollard Formation.[12] It has been established that, in the type area near Red Deer, this erosional surface represents a hiatus of about 1-2 million years.[6] In the foothills, the contact with the underlying Coalspur Formation is less distinctive but is again placed at the base of the first dominantly sandstone unit overlying a dominantly coal and mudstone unit.[10]
The Paskapoo Formation contains remains of vertebrates,[15] especially mammals, and plants. Material from the following groups of mammals has been reported from the Paskapoo Formation: Multituberculata, Marsupicarnivora, Lyptophyla, Dermoptera, Primates, Carnivora, Condylartha, and Pantodonta, as well as the small, possibly venomous mammal Bisonalveus.[13] The Paskapoo has also yielded articulated and fragmentary skeletons of freshwater fish, impressions of insect wings and larvae, and shells of freshwater molluscs.[7] An unnamed species of the amphibian Albanerpeton is known from the formation, which is the final record of albanerpetontids from North America.[16]
During the early 1900s, outcrops of Paskapoo sandstone in the Calgary area were quarried for building stone due to the requirement for fire-resistant buildings following the Calgary Fire of 1886. Many of Calgary's early landmark buildings, such as Lougheed House, Burns Manor, and some of the buildings along Stephen Avenue, were built using Paskapoo sandstone, and Calgary became known as the Sandstone City.[24] Paskapoo sandstone is still used in landscaping in the Calgary area today.[when?]
Coal
Coal has been mined from the Obed coal zone in the Paskapoo Formation near Hinton. It is of high-volatile bituminous rank with a low sulphur content, and it was shipped to markets in eastern Canada and the Pacific Rim.[9]
Groundwater
Paskapoo Formation aquifers are a very important source of water for irrigation and drinking in southwestern Alberta.[6]
References
^ abGlass, 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. ISBN0-920230-23-7.
^ abTyrrell, J.B., 1887. Report on a part of northern Alberta and portions of adjacent Districts of Assiniboia and Saskatchewan;Geological Survey of Canada, Annual Report 1886, v.11, Part E, p.1-176
^ abHoffman, G.L. and Stockey, R.A., 1999. Geological setting and paleobotany of the Joffre Bridge Roadcut fossil locality (Late Paleocene), Red Deer Valley, Alberta. Canadian Journal of Earth Science, 36: 2073-2084.
^ abDemchuk, T.D. and Hills, L.V., 1991. A re-examination of the Paskapoo Formation in the central Alberta Plains: the designation of three new members. Canadian Journal of Earth Science 27: 1263-1269.
^ abLerbekmo, J.F. and Sweet, A.R., 2008. Magnetobiostratigraphy of the continental Paleocene upper Coalspur and Paskapoo formations near Hinton, Alberta. Bulletin of Canadian Petroleum Geology 56: 118-146.
^ abFox, R.C., 1990. The succession of Paleocene mammals in western Canada. Geological Society of America, Special Paper 243, pp. 51-70.
^Lerbekmo, J.F., Demchuk, T.D., Evans, M.E. and Hoye, G.S., 1992. Magnetostratigraphy and biostratigraphy of the continental Paleocene of the Red Deer Valley, Alberta, Canada. Bulletin of Canadian Petroleum Geology, 40: 24-35.
^Fox, Richard C.; Naylor, Bruce G. (1982-01-01). "A reconsideration of the relationships of the fossil amphibian Albanerpeton". Canadian Journal of Earth Sciences. 19 (1): 118–128. Bibcode:1982CaJES..19..118F. doi:10.1139/e82-009. ISSN0008-4077.
^Hoffman, G.L. and Stockey, R.A., 1994. Sporophytes, megaspores and massulae of Azolla stanleyi from the Paleocene Joffre Bridge locality, Canada. Canadian Journal of Botany, 72: 301-308.
^Rothwell, G.W. and Stockey, R.A., 1991. Onoclea sensibilis in the Paleocene of North America, a dramatic example of structural and ecological stasis. Review of Palaeobotany and Palynology, 70: 113–124.
^Stockey R.A., Lantz, T.C. and Rothwell, G.W. 2006. Speirseopteris orbiculata (Thelypteridaceae), a derived fossil filicalean from the Paleocene of western North America. International Journal of Plant Sciences, 167: 729–736.
^Sun, F. and Stockey, R.A., 1992. A new species of Palaeocarpinus (Betulaceae) from the Paleocene of Alberta, Canada. International Journal of Plant Sciences, 153: 136–146.
^Crane, P.R., and Stockey, R.A. 1985. Growth and reproductive biology of Joffrea speirsii, a Cercidiphyllum-like plant from the Late Paleocene of Alberta, Canada. Canadian Journal of Botany, 63: 340–364.
^Pigg, K.B. and Stockey, R.A., 1991. Platanaceous plants from the Paleocene of Alberta. Rev. Palaeobot. Palynol. 70:125-146.
^Manchester, S.R., Crane, P.R. and Golovneva, L.B., 1999. An extinct genus with affinities to extant Davidia and Camptotheca (Cornales) from the Paleocene of North America and eastern Asia. International Journal of Plant Sciences, 160: 188–207.