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A revised model for the crustal structure of the SW Grenville Province, Ontario, Canada

Published online by Cambridge University Press:  16 March 2017

ALAN DICKIN*
Affiliation:
School of Geography & Earth Sciences, McMaster University, 1280 Main Street West, Hamilton, Ontario L8S 4M2, Canada
JACOB STRONG
Affiliation:
School of Geography & Earth Sciences, McMaster University, 1280 Main Street West, Hamilton, Ontario L8S 4M2, Canada
GABRIEL ARCURI
Affiliation:
School of Geography & Earth Sciences, McMaster University, 1280 Main Street West, Hamilton, Ontario L8S 4M2, Canada
ANNIKA VAN KESSEL
Affiliation:
School of Geography & Earth Sciences, McMaster University, 1280 Main Street West, Hamilton, Ontario L8S 4M2, Canada
LUCIA KRIVANKOVA-SMAL
Affiliation:
School of Geography & Earth Sciences, McMaster University, 1280 Main Street West, Hamilton, Ontario L8S 4M2, Canada
*
*Author for correspondence: dickin@mcmaster.ca

Abstract

The Grenville Province forms the exhumed remnants of a 1.1 Ga collisional orogeny that telescoped an older continental margin. Terranes with distinct crustal formation ages can be mapped using Nd isotopes, revealing a ramp–flat thrust structure. The ramp is identified by the presence of retrogressed eclogites, and its trajectory is refined using Nd model ages. The main allochthon is locally overlain by the Parry Sound klippe, but is also underlain by a tectonic duplex. Northwest-directed nappes represent remnants of a corrugated thrust sheet, but a ring-shaped remnant was also preserved where the thrust sheet was down-buckled under the dense rocks of Parry Sound domain.

Type
Rapid Communication
Copyright
Copyright © Cambridge University Press 2017 

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References

Connare, K. M. & McNutt, R. H. 1985. Rb–Sr geochronology of the Nobel gneiss and McKellar gneiss, Parry Sound Region, Ontario. Current Research, Part A, Geological Survey of Canada Paper 85-1A: 175–80.Google Scholar
Corrigan, D., Culshaw, N. G. & Mortensen, J. K. 1994. Pre-Grenvillian evolution and Grenvillian overprinting of the Parautochthonous Belt in Key Harbour, Ontario: U-Pb and field constraints. Canadian Journal of Earth Sciences 31, 583–96.CrossRefGoogle Scholar
Culshaw, N. G., Corrigan, D., Ketchum, J. W. F., Wallace, P. & Wodicka, N. 2004a. Precambrian geology, Naiscoot area. Preliminary map P.3549, scale 1:50000. Ontario Geological Survey.Google Scholar
Culshaw, N.G., Corrigan, D., Ketchum, J. W. F., Wallace, P. & Wodicka, N. 2004b. Precambrian geology, Parry Sound area. Preliminary map P.3550, scale 1:50000. Ontario Geological Survey.Google Scholar
Culshaw, N., Foster, J., Marsh, J., Slagstad, T. & Gerbi, C. 2016. Kiosk domain, Central Gneiss Belt, Grenville Province, Ontario: a Labradorian palimpsest preserved in the ductile deep crust. Precambrian Research 280, 249–78.CrossRefGoogle Scholar
Culshaw, N. G., Jamieson, R. A., Ketchum, J. W. F., Wodicka, N., Corrigan, D. & Reynolds, P. H. 1997. Transect across the northwestern Grenville orogen, Georgian Bay, Ontario: polystage convergence and extension in the lower orogenic crust. Tectonics 16, 966–82.CrossRefGoogle Scholar
Culshaw, N. G., Ketchum, J. W. F., Wodicka, N. & Wallace, P. 1994. Deep crustal ductile extension following thrusting in the southwestern Grenville Province, Ontario. Canadian Journal of Earth Sciences 31, 160–75.CrossRefGoogle Scholar
Davidson, A. 1995. A review of the Grenville orogen in its North American type area. AGSO Journal of Australian Geology and Geophysics 16, 324.Google Scholar
Davidson, A., Culshaw, N. G. & Nadeau, L. 1982. A tectono-metamorphic framework for part of the Grenville Province, Parry sound region, Ontario. Current Research, Part A, Geological Survey of Canada Paper 82-1A, 175–90.Google Scholar
Davidson, A., Nadeau, L. & Culshaw, N. G. 2012. Classic outcrops in the Central Gneiss Belt, Ontario – a retrospective. 32nd Friends of the Grenville Annual Field Excursion, Guidebook.Google Scholar
DeCelles, P. G., Robinson, D. M., Quade, J., Ojha, T. P., Garzione, C. N., Copeland, P. & Upreti, B. N. 2001. Stratigraphy, structure, and tectonic evolution of the Himalayan fold-thrust belt in western Nepal. Tectonics 20, 487509.CrossRefGoogle Scholar
DePaolo, D. J. 1981. Neodymium isotopes in the Colorado Front Range and crust-mantle evolution in the Proterozoic. Nature 291, 193–6.CrossRefGoogle Scholar
Dickin, A. P. 2000. Crustal formation in the Grenville Province: Nd-isotope evidence. Canadian Journal of Earth Sciences 37, 165–81.CrossRefGoogle Scholar
Dickin, A. P., Cooper, D., Guo, A., Hutton, C., Martin, C., Sharma, K. N. M. & Zelek, M. 2012. Nd isotope mapping of the Lac Dumoine thrust sheet: implications for large scale crustal structure in the SW Grenville Province. Terra Nova 24, 363–72.CrossRefGoogle Scholar
Dickin, A. P., Herrell, M., Moore, E., Cooper, D. & Pearson, S. 2014. Nd isotope mapping of allochthonous Grenvillian klippen: evidence for widespread ‘ramp–flat’ thrust geometry in the SW Grenville Province. Precambrian Research 246, 268–80.CrossRefGoogle Scholar
Dickin, A., Hynes, E., Strong, J. & Wisborg, M. 2016. Testing a back-arc ‘aulacogen'model for the Central Metasedimentary Belt of the Grenville Province. Geological Magazine 153, 681–95.CrossRefGoogle Scholar
Dickin, A. P. & McNutt, R. H. 1989. Nd model age mapping of the southeast margin of the Archean foreland in the Grenville province of Ontario. Geology 17, 299302.2.3.CO;2>CrossRefGoogle Scholar
Dickin, A. P. & McNutt, R. H. 1990. Nd model-age mapping of Grenville lithotectonic domains: Mid-Proterozoic crustal evolution in Ontario, In, Mid-Proterozoic Laurentia–Baltica (eds Gower, C. F., Rivers, T. & Ryan, B.), pp. 7994. Geological Association of Canada Special Paper no. 38.Google Scholar
Dickin, A. P., McNutt, R. H., Martin, C. & Guo, A. 2010. The extent of juvenile crust in the Grenville Province: Nd isotope evidence. Geological Society of America Bulletin 122, 870–83.CrossRefGoogle Scholar
Dickin, A. P., Moretton, K. & North, R. 2008. Isotopic mapping of the Allochthon Boundary Thrust in the Grenville Province of Ontario, Canada. Precambrian Research 167, 260–6.CrossRefGoogle Scholar
Dickin, A. & North, R. 2015. Nd isotope mapping of the Allochthon Boundary Thrust on the shores of Georgian Bay, Ontario: significance for Grenvillian crustal structure and evolution. Geological Magazine 152, 9931008.CrossRefGoogle Scholar
Gower, C. F., Scharer, U. & Heaman, L. M. 1992. The Labradorian orogeny in the Grenville Province, eastern Labrador, Canada. Canadian Journal of Earth Sciences 29, 1944–57.CrossRefGoogle Scholar
Grant, S. M. 1989. Tectonic implications from sapphirine-bearing lithologies, south-west Grenville Province, Canada. Journal of Metamorphic Geology 7, 583–98.CrossRefGoogle Scholar
Heaman, L. M. & LeCheminant, A. N. 1993. Paragenesis and U-Pb systematics of baddeleyite (ZrO2). Chemical Geology 110, 95126.CrossRefGoogle Scholar
Herrell, M. K., Dickin, A. P. & Morris, W. A. 2006. A test of detailed Nd isotope mapping in the Grenville Province: delineating a duplex thrust sheet in the Kipawa Mattawa region. Canadian Journal of Earth Sciences 43, 421–32.CrossRefGoogle Scholar
Indares, A. 1993. Eclogitized gabbros from the eastern Grenville Province: textures, metamorphic context, and implications. Canadian Journal of Earth Sciences 30, 159–73.CrossRefGoogle Scholar
Indares, A. & Dunning, G. 1997. Coronitic metagabbro and eclogite from the Grenville Province of western Quebec: interpretation of U-Pb geochronology and metamorphism. Canadian Journal of Earth Sciences 34, 891901.CrossRefGoogle Scholar
Jamieson, R. A., Culshaw, N. G. & Corrigan, D. 1995. North-west propagation of the Grenville orogen: Grenvillian structure and metamorphism near Key Harbour, Georgian Bay, Ontario, Canada. Journal of Metamorphic Geology 13, 185207.CrossRefGoogle Scholar
Ketchum, J. W. F. & Davidson, A. 2000. Crustal architecture and tectonic assembly of the Central Gneiss Belt, southwestern Grenville Province, Canada: a new interpretation. Canadian Journal of Earth Sciences 37, 217–34.CrossRefGoogle Scholar
Ketchum, J. W. F. & Krogh, T. E. 1998. U–Pb constraints on high-pressure metamorphism in the southwestern Grenville orogen, Canada. Mineralogical Magazine 62, 775–6.CrossRefGoogle Scholar
Krogh, T. E. & Kwok, Y. Y. 2005. The age enigma in the Moon River structure and the Parry Sound domain connection, Grenville Province. Geological Association of Canada Abstracts with Programs 30, 106.Google Scholar
Lindia, F. M., Thomas, M. D. & Davidson, A. 1983. Geological significance of Bouguer gravity anomalies in the region of Parry Sound Domain, Grenville Province, Ontario. Current Research, Part B, Geological Survey of Canada Paper 83-1B: 261–6.Google Scholar
Lumbers, S. B. & Vertoli, V. M. 1996. Precambrian geology, Huntsville area. Preliminary map P.3413, scale 1:50 000. Ontario Geological Survey.Google Scholar
Lumbers, S. B. & Vertoli, V. M. 2000. Precambrian geology, Bracebridge area. Preliminary map P.3411, scale 1:50000. Ontario Geological Survey.Google Scholar
Marsh, J. H. & Culshaw, N. G. 2014. Timing and conditions of high-pressure metamorphism in the western Grenville Province: constraints from accessory mineral composition and phase equilibrium modeling. Lithos 200, 402–17.CrossRefGoogle Scholar
Marsh, J. H., Gerbi, C. C., Culshaw, N. G., Johnson, S. E., Wooden, J. L. & Clark, C. 2012. Using zircon U–Pb ages and trace element chemistry to constrain the timing of metamorphic events, pegmatite dike emplacement, and shearing in the southern Parry Sound domain, Grenville Province, Canada. Precambrian Research 192, 142–65.CrossRefGoogle Scholar
Moore, E. S. & Dickin, A. P. 2011. Evaluation of Nd isotope data for the Grenville Province of the Laurentian Shield using a Geographic Information System (GIS). Geosphere 7, 415–28.CrossRefGoogle Scholar
Nadeau, L. 1991. Tectonic evolution of the Central Grenville Belt, Huntsville area, Ontario. Friends of the Grenville Annual Field Excursion, Guidebook.Google Scholar
Nadeau, L. & van Breemen, O. 1998. Plutonic ages and tectonic setting of the Algonquin and Muskoka allochthons, Central Gneiss Belt, Grenville Province, Ontario. Canadian Journal of Earth Sciences 35, 1423–38.CrossRefGoogle Scholar
Rivers, T. 1997. Lithotectonic elements of the Grenville Province: review and tectonic implications. Precambrian Research 86, 117–54.CrossRefGoogle Scholar
Rivers, T., Ketchum, J., Indares, A. & Hynes, A. 2002. The High Pressure belt in the Grenville Province: architecture, timing, and exhumation. Canadian Journal of Earth Sciences 39, 867–93.CrossRefGoogle Scholar
Rivers, T., Martignole, J., Gower, C. F. & Davidson, A. 1989. New tectonic divisions of the Grenville Province, southeastern Canadian Shield. Tectonics 8, 6384.CrossRefGoogle Scholar
Rivers, T. & Schwerdtner, W. 2015. Post-peak evolution of the Muskoka Domain, Western Grenville Province: ductile detachment zone in a crustal-scale metamorphic core complex. Geoscience Canada 42, 403–36.CrossRefGoogle Scholar
Rivers, T., Van Gool, J. A. M. & Connelly, J. N. 1993. Contrasting tectonic styles in the northern Grenville province: implications for the dynamics of orogenic fronts. Geology 21, 1127–30.2.3.CO;2>CrossRefGoogle Scholar
Schwerdtner, W. M., Rivers, T., Tsolas, J., Waddington, D. H., Page, S. & Yang, J. 2016. Transtensional origin of multi-order cross-folds in a high-grade gneiss complex, southwestern Grenville Province: formation during post-peak gravitational collapse. Canadian Journal of Earth Sciences 53, 1511–38.CrossRefGoogle Scholar
Schwerdtner, W. M. & Van Berkel, J. T. 1991. The origin of fold abutments in the map pattern of the westernmost Grenville Province, central Ontario. Precambrian Research 49, 3959.CrossRefGoogle Scholar
Slagstad, T., Culshaw, N. G., Daly, J. S. & Jamieson, R. A. 2009. Western Grenville Province holds key to midcontinental Granite-Rhyolite Province enigma. Terra Nova 21, 181–7.CrossRefGoogle Scholar
Slagstad, T., Culshaw, N. G., Jamieson, R. A. & Ketchum, J. W. 2004. Early Mesoproterozoic tectonic history of the southwestern Grenville Province, Ontario: constraints from geochemistry and geochronology of high-grade gneisses. In Proterozoic Tectonic Evolution of the Grenville Orogen in North America (eds Tollo, R. P., Corriveau, L., McLelland, J. & Bartholomew, M. J.), pp. 209–41. Geological Society of America Memoir no. 197.CrossRefGoogle Scholar
Strong, J. W. D. 2015. SketchUp as a construction tool for large-scale subsurface structures: three-dimensional visualization of the Parry Sound Domain, Grenville Province, Ontario. Cartographica 50, 179–86.CrossRefGoogle Scholar
Tucker, R. D. & Gower, C. F. 1994. A U-Pb geochronological framework for the Pinware terrane, Grenville Province, southeast Labrador. The Journal of Geology 6778.CrossRefGoogle Scholar
van Breemen, O., Davidson, A., Loveridge, W. D. & Sullivan, R. W. 1986. U-Pb zircon geochronology of Grenville tectonites, granulites and igneous precursors, Parry Sound, Ontario. In The Grenville Province (eds Moore, J. M., Davidson, A. & Baer, A. J.), pp. 191207. Geological Association of Canada Special Paper no. 31.Google Scholar
Van Schmus, W. R. 1980. Chronology of igneous rocks associated with the Penokean orogeny in Wisconsin. In Selected Studies of Archean Gneisses and Lower Proterozoic Rocks, Southern Canadian Shield (eds Morey, G. B. & Hanson, G. N.), pp. 159–68. Geological Society of America Special Paper no. 182.Google Scholar
White, D. J., Easton, R. M., Culshaw, N. G., Milkereit, B., Forsyth, D. A., Carr, S. & Davidson, A. 1994. Seismic images of the Grenville Orogen in Ontario. Canadian Journal of Earth Sciences 31, 293307.CrossRefGoogle Scholar
Windley, B. F. 1986. Comparative tectonics of the western Grenville and the western Himalaya. In The Grenville Province (eds Moore, J. M., Davidson, A. & Baer, A. J.), pp. 341–8. Geological Association of Canada Special Paper no. 31.Google Scholar