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Bezys, Ruth K., Risk, Michael J. (1990) The Long Rapids Formation: an Upper Devonian black shale in the Moose River Basin, northern Ontario. Canadian Journal of Earth Sciences, 27 (2) 291-305 doi:10.1139/e90-028

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Reference TypeJournal (article/letter/editorial)
TitleThe Long Rapids Formation: an Upper Devonian black shale in the Moose River Basin, northern Ontario
JournalCanadian Journal of Earth Sciences
AuthorsBezys, Ruth K.Author
Risk, Michael J.Author
Year1990 (February 1)Volume27
Issue2
PublisherCanadian Science Publishing
DOIdoi:10.1139/e90-028Search in ResearchGate
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Mindat Ref. ID480816Long-form Identifiermindat:1:5:480816:3
GUID0
Full ReferenceBezys, Ruth K., Risk, Michael J. (1990) The Long Rapids Formation: an Upper Devonian black shale in the Moose River Basin, northern Ontario. Canadian Journal of Earth Sciences, 27 (2) 291-305 doi:10.1139/e90-028
Plain TextBezys, Ruth K., Risk, Michael J. (1990) The Long Rapids Formation: an Upper Devonian black shale in the Moose River Basin, northern Ontario. Canadian Journal of Earth Sciences, 27 (2) 291-305 doi:10.1139/e90-028
In(1990, February) Canadian Journal of Earth Sciences Vol. 27 (2) Canadian Science Publishing
Abstract/Notes The Long Rapids Formation, a sequence of interbedded black shales, green–grey mudstones, and carbonates in the Moose River Basin of northern Ontario, is Late Devonian in age and has counterpart equivalents in the Michigan, Appalachian, and Illinois basins. The Long Rapids Formation has a maximum known thickness of 85 m and can be divided into three informal members. Based on conodont studies, the formation spans the Frasnian–Famennian age boundary.The Long Rapids Formation is an organic-rich, laminated, marine black-shale sequence interbedded with green–grey mudstones and concretionary carbonate interbeds and nodules. The environment of deposition was principally reducing, allowing for preservation of large amounts of organic matter both originating in the overlying water column and derived from terrestrial sources. The depositional basin was stratified, and anoxic bottom waters and oxic surface waters were separated by a pycnocline. The position of the pycnocline (or the absence of it) dictated the type of sediment facies deposited.The Moose River Basin in the Late Devonian was located on the Laurasian Continent, proximal to the equator, in an area where tropical weather conditions prevailed. Conditions were warm and wet along the Appalachian highlands, and farther inland they were warm and dry as a result of the rain-shadow effect. The black shales in the Long Rapids Formation represent a period of transgression of the large epicontinental Catskill Sea, and the green–grey mudstones and carbonates represent periods of minor eustatic or tectonic perturbations.Dark-coloured, organic-rich shale facies (sometimes with abundant bioturbation) are succeeded by lighter coloured shale or mudstone facies and carbonate facies in a repetitive fashion. The facies sequences appear to represent a three-part sedimentary package, or "rhythm", that is very common in the lower two members of the Long Rapids Formation. Bioturbation and total organic carbon content are less in the green–grey shales or mudstones, as well as in the carbonate facies, than in the darker shale facies.

See Also

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Prosh, Eric C. (1990) The Devonian ammonoid Agoniatites from Hungry Hollow, southwestern Ontario. Canadian Journal of Earth Sciences, 27 (7) 999-1001 doi:10.1139/e90-102
Legault, Jocelyne A., Norris, Geoffrey (1982) Palynological evidence for recycling of Upper Devonian into Lower Cretaceous of the Moose River Basin, James Bay Lowland, Ontario. Canadian Journal of Earth Sciences, 19 (1) 1-7 doi:10.1139/e82-001
Levman, Bryan G, Bitter, Peter H von (2002) The Frasnian-Famennian (mid-Late Devonian) boundary in the type section of the Long Rapids Formation, James Bay Lowlands, northern Ontario, Canada. Canadian Journal of Earth Sciences, 39 (12) 1795-1818 doi:10.1139/e02-073
KLAPPER, G., UYENO, T. T., ARMSTRONG, D. K., TELFORD, P. G. (2004) CONODONTS OF THE WILLIAMS ISLAND AND LONG RAPIDS FORMATIONS (UPPER DEVONIAN, FRASNIAN-FAMENNIAN) OF THE ONAKAWANA B DRILLHOLE, MOOSE RIVER BASIN, NORTHERN ONTARIO, WITH A REVISION OF LOWER FAMENNIAN SPECIES. Journal of Paleontology, 78 (2) 371-387 doi:10.1666/0022-3360(2004)078<0371:cotwia>2.0.co;2
Couture, J. F., Guha, J. (1990) Relative timing of emplacement of an Archean lode-gold deposit in an amphibolite terrane: the Eastmain River deposit, northern Quebec. Canadian Journal of Earth Sciences, 27 (12) 1621-1636 doi:10.1139/e90-172
Norris, Geoffrey (1977) Palynofloral evidence for terrestrial Middle Jurassic in the Moose River Basin, Ontario. Canadian Journal of Earth Sciences, 14 (2) 153-158 doi:10.1139/e77-018
Smith, J. M., Erdmer, P. (1990) The Anvil aureole, an atypical mid-Cretaceous culmination in the northern Canadian Cordillera. Canadian Journal of Earth Sciences, 27 (3) 344-356 doi:10.1139/e90-032
Bernstein, L., Young, G. M. (1990) Depositional environments of the Early Proterozoic Espanola Formation, Ontario, Canada. Canadian Journal of Earth Sciences, 27 (4) 539-551 doi:10.1139/e90-051
Case, Gerard R., Tokaryk, Tim T., Baird, Donald (1990) Selachians from the Niobrara Formation of the Upper Cretaceous (Coniacian) of Carrot River, Saskatchewan, Canada. Canadian Journal of Earth Sciences, 27 (8) 1084-1094 doi:10.1139/e90-112
Dalrymple, Robert W., Carey, John S. (1990) Water-level fluctuations in Lake Ontario over the last 4000 years as recorded in the Cataraqui River lagoon, Kingston, Ontario. Canadian Journal of Earth Sciences, 27 (10) 1330-1338 doi:10.1139/e90-143
Anketell, J. M., Rust, B. R. (1990) Origin of cross-stratal layering in fluvial conglomerates, Devonian Malbaie Formation, Gaspé, Quebec. Canadian Journal of Earth Sciences, 27 (12) 1773-1782 doi:10.1139/e90-183
 
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