Albert Formation
Lithology and mineralogy
The Albert Formation includes sandstone, siltstone, mudstone, and oil shale, with minor limestone and conglomerate. The oil shale beds are primarily kerogen-rich calcareous to dolomitic marlstones, clay marlstones, and laminated marlstones. The formation also includes local deposits of the evaporite minerals halite (rock salt), gypsum, anhydrite, and glauberite. The solid hydrocarbon albertite occurs as veins filling fissures in some of the beds, and is derived from the hydrocarbons in the oil shales.
Environment of deposition
The Albert Formation has been interpreted as a composite alluvial fan, fluvial-deltaic, and lacustrine sequence. The coarser-grained lithologies are nearshore deposits, while the finer-grained rocks, including the oil shale beds, are an offshore, deeper-water assemblage. Fossils of whole fish preserved in the laminated oil shales indicate very low energy, anoxic conditions.
Paleontology
The Albert Formation is known for its complete, articulated specimens of lower actinopterygian (palaeoniscoid) fishes, including the genera Rhadinichthys, Elonichthys, and Canobius. There are remains of land plants such as Lepidodendrales and Sphenopteris, as well as palynomorphs. Trace fossils include Paleodictyon, Helminthopsis, and Planolites.
Economic resources
Oil and gas
The Albert Formation hosts the only two commercial onshore oil and gas fields in Canada's Maritime Provinces. The Stoney Creek field produced from sandstone reservoirs in the Albert Formation between 1909 and 1991, and estimates suggest that significant oil remains in place there. The McCully field, which was discovered in 2000, produces from tight gas sandstones in the upper part of the Albert Formation, above the main organic mudstone (oil shale) source rocks.
Albertite
Veins of the solid black hydrocarbon that was subsequently named albertite were first noted in the Albert Formation in 1820. In 1846, Abraham Gesner used albertite in developing the first method for distilling kerosene, and between 1854 and 1884 albertite was mined by underground methods at Albert Mines for use in the production of kerosene and illuminating gas.
References
- ^ Carter, D.C. and Pickerill, R.K. 1985. Lithostratigraphy of the Late Devonian – Early Carboniferous Horton Group of the Moncton Subbasin, southern New Brunswick. Atlantic Geology, vol. 21, p. 11-24.
- ^ Smith, W.D. and Gibling, M.R. 1987. Oil shale composition related to depositional setting: A case study from the Albert Formation, New Brunswick, Canada. Bulletin of Canadian Petroleum Geology, vol. 35, no. 4, p. 469-487.
- ^ Macauley, G., Ball, F.D. and Powell, T.G. 1984. A review of the Carboniferous Albert Formation oil shales of New Brunswick. Bulletin of Canadian Petroleum Geology, vol. 32, no. 1, p. 27-37.
- ^ Keighley, D. 2008. A lacustrine shoreface succession in the Albert Formation, Moncton Basin, New Brunswick. Bulletin of Canadian Petroleum Geology, vol. 56, no. 4, p. 235-258.
- ^ Mickle, K.E. 2017. The lower actinopterygian fauna from the Lower Carboniferous Albert shale formation of New Brunswick Canada – A review of previously described taxa and a description of a new genus and species. College of Science, Health and the Liberal Arts Faculty Papers, paper 1. https://jdc.jefferson.edu/jchsfp/1; doi:10.5194/fr-20-47-2017.
- ^ Bell, W.A. 1960. Mississippian Horton Group of type Windsor-Horton District, Nova Scotia. Geological Survey of Canada, Memoir 314, 112 p.
- ^ Utting, J. 1987. Palynostratigraphic investigation of the Albert Formation (Lower Carboniferous) of New Brunswick, Canada. Palynology, vol. 11, no. 1, p. 73-96.
- ^ Pickerill, R.K. 1990. Nonmarine Paleodictyon from the Carboniferous Albert Formation of southern New Brunswick. Atlantic Geology, vol. 26, p. 157-163.
- ^ Albert County Museum. "Albertite Mining". Retrieved 23 April 2020.
- Various Contributors to the Paleobiology Database. "Fossilworks: Gateway to the Paleobiology Database". Retrieved 17 December 2021.