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Aspler, Lawrence B., Chiarenzelli, Jeffrey R. (1996) Relationship between the Montgomery Lake and Hurwitz groups, and stratigraphic revision of the lower Hurwitz Group, District of Keewatin. Canadian Journal of Earth Sciences, 33 (9) 1243-1255 doi:10.1139/e96-094

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Reference TypeJournal (article/letter/editorial)
TitleRelationship between the Montgomery Lake and Hurwitz groups, and stratigraphic revision of the lower Hurwitz Group, District of Keewatin
JournalCanadian Journal of Earth Sciences
AuthorsAspler, Lawrence B.Author
Chiarenzelli, Jeffrey R.Author
Year1996 (September 1)Volume33
Issue9
PublisherCanadian Science Publishing
DOIdoi:10.1139/e96-094Search in ResearchGate
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Mindat Ref. ID482859Long-form Identifiermindat:1:5:482859:8
GUID0
Full ReferenceAspler, Lawrence B., Chiarenzelli, Jeffrey R. (1996) Relationship between the Montgomery Lake and Hurwitz groups, and stratigraphic revision of the lower Hurwitz Group, District of Keewatin. Canadian Journal of Earth Sciences, 33 (9) 1243-1255 doi:10.1139/e96-094
Plain TextAspler, Lawrence B., Chiarenzelli, Jeffrey R. (1996) Relationship between the Montgomery Lake and Hurwitz groups, and stratigraphic revision of the lower Hurwitz Group, District of Keewatin. Canadian Journal of Earth Sciences, 33 (9) 1243-1255 doi:10.1139/e96-094
In(1996, September) Canadian Journal of Earth Sciences Vol. 33 (9) Canadian Science Publishing
Abstract/Notes Recent detailed mapping has resulted in a possible solution to a long-standing stratigraphic controversy as to whether the contact between the Montgomery Lake Group (age uncertain) and the Hurwitz Group (Paleoproterozoic) is an unconformity. In its type area, the Montgomery Lake Group consists of mainly immature litharenite and lithic wacke, and is separated from underlying Archean greenstones and the overlying Hurwitz Group by angular unconformities. In the Padlei belt, a unit previously referred to as "Montgomery Lake sedimentary rocks," "Montgomery Lake Group," or "map unit X" consists of mainly submature to mature subarkose to quartz arenite, with interbeds of pyritic (auriferous) and nonpyritic (locally red) quartz pebble conglomerate. These rocks differ from the Montgomery Lake Group in its type area, but bear strong lithologic and stratigraphic resemblence to rocks in the lower Hurwitz Group. Furthermore, interfingering between map unit X and Hurwitz Group lithotypes suggests that map unit X is an integral part of the Herwitz Group and that its upper contact is transitional. We formally propose that map unit X be called the "Noomut Formation," a new unit at the base of the Hurwitz Group. In the absence of an unconformity in its lower part, the lower Hurwitz Group provides a continous record of the time during which free oxygen was sustained in Earth's atmosphere, and of paleoclimatic changes that may be related to the breakup of an earliest Paleoproterozoic supercontinent.

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Aspler, Lawrence B., Chiarenzelli, Jeffrey R. (1997) Initiation of ∼2.45-2.1 Ga intracratonic basin sedimentation of the Hurwitz Group, Keewatin Hinterland, Northwest territories, Canada. Precambrian Research, 81 (3) 265-297 doi:10.1016/s0301-9268(96)00038-1
Chiarenzelli, Jeffrey R., Aspler, Lawrence B., Ozarko, Diana L., Hall, G.E.M., Powis, Kelli B., Donaldson, J.A. (1997) Heavy metals in lichens, southern district of keewatin, Northwest Territories, Canada. Chemosphere, 35 (6). 1329-1341 doi:10.1016/s0045-6535(97)00168-9
Park, Adrian F., Ralser, Steven (1991) Structure of the Early Proterozoic Hurwitz Group in the Tavani area, Keewatin, Northwest Territories. Canadian Journal of Earth Sciences, 28 (7) 1078-1095 doi:10.1139/e91-098
Aspler, Lawrence B, Cousens, Brian L, Chiarenzelli, Jeffrey R (2002) Griffin gabbro sills (2.11 Ga), Hurwitz Basin, Nunavut, Canada: long-distance lateral transport of magmas in western Churchill Province crust. Precambrian Research, 117 (3) 269-294 doi:10.1016/s0301-9268(02)00090-6
Laidler, R. B., Scott, D. B. (1996) Foraminifera and Arcellacea from Porters Lake, Nova Scotia: modern distribution and paleodistribution. Canadian Journal of Earth Sciences, 33 (10) 1410-1427 doi:10.1139/e96-106
Desbiens, Sylvain, Bolton, Thomas E., McCracken, Alexander D. (1996) Fauna of the lower Beauharnois Formation (Beekmantown Group, Lower Ordovician), Grande-Île, Quebec. Canadian Journal of Earth Sciences, 33 (8) 1132-1153 doi:10.1139/e96-086
Kellett, R. L., Rivard, B. (1996) Characterization of the Benny deformation zone, Sudbury, Ontario. Canadian Journal of Earth Sciences, 33 (9) 1256-1267 doi:10.1139/e96-095
Hofmann, H J, Davidson, A (1998) Paleoproterozoic stromatolites, Hurwitz Group, Quartzite Lake area, Northwest Territories, Canada. Canadian Journal of Earth Sciences, 35 (3) 280-289 doi:10.1139/e97-103
Cordey, Fabrice, Carter, Elizabeth S. (1996) New Nassellaria (Radiolaria) from the Lower Jurassic of the Canadian Cordillera. Canadian Journal of Earth Sciences, 33 (3) 444-451 doi:10.1139/e96-034
Wanless, R. K., Eade, K. E. (1975) Geochronology of Archean and Proterozoic Rocks in the Southern District of Keewatin: Reply. Canadian Journal of Earth Sciences, 12 (7) 1254-1255 doi:10.1139/e75-116
Aspler, Lawrence B, Chiarenzelli, Jeffrey R, Cousens, Brian L, McNicoll, Vicki J, Davis, William J (2002) Erratum to “Paleoproterozoic intracratonic basin processes, from breakup of Kenorland to assembly of Laurentia: Hurwitz Basin, Nunavut, Canada” [Sediment. Geol. 141–142 (2001) 287–318]. Sedimentary Geology, 151 (3) 335-336 doi:10.1016/s0037-0738(01)00280-9
 
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